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f
\
THE
AMERICAN EPHEMERIS
AMD
NAUTICAL ALMANAC.
FOR THB TBAR
1855.
PUBLISHED BY AUTHORITY OP THE SECRETARY OP THB NATY.
V.
d'/:;\v-St>\}>
• •*••">
WASHINGTON.
1862.
GAMBRIDGB:
MBTCALr AKD COMPANT,
triKBOTTPIU AND PRITTCRS.
PREFACE.
The preparation of this work was begun in the latter part
of the year 1849, in accordance with an act of Congress, approved
on the 3d of March of that year. An account of this preparation,
its details, the values of the constants adopted, and the means
employed in various parts of the work to secure additional accu-
racy or greater convenience, will be found in the article " On the
CoNSTBUCTioN OF THE EpHEKEBis," Contained in the Appendix to
this volume.
An article " On the Arbangement and Use of the Tables "
will also be found in this volume, to which the student is referred
for instruction.
The theoretical department of the work has been placed under
the special direction of Professor Benjamin Feirce, LL. D., and
most of the calculations have passed under his final revision.
It is due to the memory of the late Nathaniel Bowditch, LL. D.,
the illustrious commentator of La Place, to say, that his zeal in
enriching the library of the University at Cambridge, that of the
American Academy of Arts and Sciences, and his private library,
still preserved and accessible to students, with the best works in
astronomical science, and his influence in promoting and diffusing
in America a love for this branch of knowledge, have greatly facil-
itated the labor of preparing the American Ephemeris for publi-
cation in its present form.
CHARLES HENRY DAVIS,
Lieut. U, S. Naxsy^ Superintendent,
Cambbidob, October 1, 1852.
CONTENTS.
Chronologioftl Eras and Cycles ... vii
Sjrmbols and Abbreriations Tiii
EPHKMBRIS rOR TBI MlRIDIAN OF OrKBMWIOB. oTllflnV
Ephemeria of the San I.
Ephemeria of the Moon 11.
Lunar Distances XI.
„ Pact
Ephemerides of the Planets, Venas^Satom 194
San's Coordinates 918
Eprbmiris for the Mbridian or Washimoton.
Obliquity of the Ecliptic, &e S38
Fixed Stars S23
Ephemeris of the Sun 271
Moon Culminations 277
Moon-Culminating Stars 292
Moen*8 Semidiameter, Horizontal Parallax, and Meridian Transit .... 300
Moon's Phases 30G
Moon's Equator 307
Ephemerides of the Planets, Mercury — Neptune 308
Horizontal Parallaxes and Semidiameters of the Planets 350
Sun's Coordinates 352
Heliocentric Coordinates of the Planets 364
Eclipses 367
Oocultations 375
Phenomena * . . . . 400
Jupiter's Satellites 428
Saturn's Ring, Discs of Veous and Mars 437
Tables for Converting Mean Solar into Sidereal Time and Sidereal into Mean Solar Time 438
Phenomena, Planetary Constellations 444
Latitudes and Longitudes of Observatories 446
Use of the Tables 468
Appendix.
Construction of the Ephemerides 1
Table for Changing Longitude and Latitude to Right Ascension and Declination, or the
Reverse 9
Moon's Libration 11
Moon's Mean Motion 12
Chauvenet's Tables for Correcting Lunar Distances 13
Ephemeris of Neptune for 1853 71
CHRONOLOGICAL ERAS AND CYCLES.
CHEONOLOGICAL ERAS.
THE TEAR I8669 WHICE COMPBISES THE LATTER PAST OF TBS 79TB AND THE BEQIM-
11 ING OF THE 80TH TEAR OF THE INDEPENDENCE OF THE UNITED STATES OF AMER-
ICA, CORRESPONDS TO
The year 6568 of the Julian Period ; to the latter part of
" 5615 and the beginning of
'* 5616 of the creation of the world, according to the Jews ;
" 2608 since the foundation of Rome, according to Varro ;
*^ 2602 of the era of Nabonassar, which has been assigned to Wednesday,
the 26th of February, of the 3967th year of the Julian Period, corre-
sponding, according to the chronologists, to the 747th, and accord-
ing to the astronomers, to the 746th year before the birth of Christ ;
" 2631 of the Olympiads, or the third year of the 656th Olympiad, com-
mencing in July, 1853, if we fix the era of the Olympiads at 775^
years before Christ, or near the beginning of July of the year 3938
of the Julian Period ; to the latter part of
*^ 1271 and the beginning of
*^ 1272 (of twelve lunations) since the Hegira, or flight of Mahomet, which,
as is generally supposed, took place on the 16th of July, in the year
622 of the Christian era ; and, finally, to
" 7363-4 of the Byzantine era.
The year 1271 of the Mohammedan era begins on the 24th of September, 1854,
and ends on the 12th of September, 1855.
The year 5615 of the Jewish era begins on the 23d of September, 1854, and ends
on the 12th of September, 1855. *
The first day of January of the year 1855 is the 2,398,585th day since the com-
mencement of the Julian Period.
CHRONOLOGICAL CYCLES.
Dominical Letter . . . G
Epact 12
Lunar Cycle or Golden Number . 13
Solar Cycle .... 16
Roman Indiction ... 13
Julian Period .... 6568
SYMBOLS AND ABBREVIATIONS.
SIGNS OF THE PLANETS, 6t,c.
o
The Sun.
€
The Moon.
«
Mercury.
?
Venus.
® or 6
The Earth.
<?
Mars.
^
Jupiter.
h
Saturn.
9
Uranus.
w
Neptune.
SIGNS OF THE ZODIAC.
Spring
signs.
Summer i ,
signs. J'
1.
V Aries.
1
: ''■
^ Libra.
2.
y Taurus.
Autumn
signs.
^•
1*1 Scorpio.
8.
n Gemini.
f 9.
^ Sagittarius.
4.
So Cancer.
Winter '
signs.
rlO.
yj Capricomus
5.
St Leo-
11.
gS Aquarius.
6.
*H Virgo,
[l2.
y Pisces.
ASPI
:CTS.
^ Conjunction, or having the same Longitude or Right Ascension.
Q Quadrature, or differing 90* in " " "
g Opposition, or differing 180* in " " "
ABBREVIATIONS.
Q Ascending Node.
Q Descending Node.
N. North. S. South.
E. East W. West.
• Degrees.
Minutes of Arc.
Seconds of Arc.
Hours.
Minutes of Time.
Seconds of Time.
ASTRONOMICAL EPHEMERIS
FOB THB USB OF
NAYIGATORS,
JANUARY, 1855.
I.
AT GREENWICH APPARENT NOON.
i
Mon.
Tiies.
Wed.
Thur.
Fri.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mon.
Tues.
Wed.
THE SUN'S
Apparent
Rigtkt Aacention.
h. m. •.
18 46 1.50
18 50 26.33
18 54 50.82
18 59 14.94
19 3 38.66
19 8 1.94
19 12 24.76
19 16 47.10
19 21 8.93
19 25 30.23
19 29 50.99
19 34 11.21
19 38 30.84
19 42 49.84
19 47 8.16
19 51 25.81
19 55 42.79
19 59 59.06
20
20
20
4 14.60
8 29.38
12 43.39
20 16 56.65
20 21 9.10
20 25 20.74
20 29 31.57
20 as 41.57
20 37 50.74
20 41 59.08
20 46 6.58
20 50 13.24
20 54 19.07
DUE for
1 hour.
11.089
11.026
11.010
10.998
10.976
10.966
10.987
10.917
10.896
10.874
10.860
10.826
10.801
10.776
10.748
10.721
10.693
10.663
10.632
10.600
10.667
10.684
10.601
10.467
10.433
10.399
10.364
10.829
10.294
10.269
10.224
Apptmttt
Daclinatioo.
1.23 2 15.3
22 57 10.0
22 51 37.3
22 45 37.4
22 39 10.5
22 32 16.6
22 24 55.9
22 17 8.8
22 8 55.5
22
21
21
0 16.2
51 11.1
41 40.4
21 31 44.4
21 21 23.3
21 10 37.7
20 59 27.7
20 47 53.6
20 35 55.6
20 23 34.2
20 10 49.9
19 57 42.8
19 44 13.3
19 30 21.9
19 16 8.9
19 1 34.7
18 46 39.8
18 31 24.5
18 15 49.1
17 59 54.1
17 43 39.9
17 27 6.8
Thur. 32 20 58 24.09 10.189 S.17 10 15.4 42.51 16 16.05 68.24 13 51.31 0.384
Die
for
Ibour.
12.14
18.28
14.41
16.64
16.67
17.79
18.90
20.00
21.08
22.15
28.21
24.27
25.82
26.36
27.89
28.40
29.40
80.88
31.35
32.30
33.23
34.15
35.06
35.96
36.84
37.70
38.54
89.37
40.18
40.97
41.75
Semi-
diameter.
1^ 18.43
16 18.43
16 18.42
16 18.41
16 18.39
16 18.37
16 18.34
16 18.30
16 18.26
16 18.21
16 18.15
16 18.09
16 18.02
16 17.95
16 17.88
16 17.80
16 17.72
16 17.64
16 17.55
16 17.46
16 17.37
16 17.27
16 17.17
16 17.06
16 16.95
16 16.84
16 16.72
16 16.60
16 16.47
16 16.33
16 16.19
Sldeiwl
Time
of the
Semidi
the
Merid-
71.04
71.00
70.95
70.90
70.84
70.78
70.72
70.65
70.58
70.50
70.42
70.34
70.25
70.16
70.07
69.98
69.88
69.78
69.68
69.58
69.48
69.37
69.26
69.15
69.04
68.93
68.82
68.71
68.59
68.48
68.36
Eqmtionor
Time,
lob9
added to
3 43 68
4 11.88
4 39.73
5 7.20
5 34.26
6 0.92
6 27.11
6 52.83
7 18.04
7 42.72
8 6.86
8 30.47
Diff.
for
lliour.
1.181
1.166
1.152
1.136
1.120
1.101
1.082
1.061
1.040
1.017
0.993
0.969
8 53.48 0.945
9 15.86 0.919
9 37.56 0.892
9 58.59
10 18.95
10 38.61
10 57.55
11 15.73
11 33.13
11 49.77
12 5.63
12 20.67
12 34.91
12 48.31
13 0.89
13 12.64
13 23.56
13 33.64
13 42.88
0.863
0.834
0.804
0.773
0.742
0.710
0.678
0.644
0.610
0.676
0.541
0.507
0.472
0.487
0.402
0.368
NoTB. — Mean Time of the Seroiduuneter pa«lne may be found hj subtracting Oe.IS from the Sidereal Time.
II.
JANUARY, 1855.
GREENWICH MEAN TIME.
1
1
THE
MOON'S
Semidiameter.
Horizontal ParalUz.
Meridian Pkssage.
Age.
Noon.
Midnight.
Noon.
Dlflr. for
Ihour.
Midnight
Diff. for
Ihour
Diflr. for
1 hour.
1
2
3
14 55.8
14 51.1
14 47.6
14 53.3
14 49.2
14 46.5
54 4(5.6
54 23.3
54 11.0
—0.82
0.62
0.42
54 31.3
54 16.3
54 6.5
—0.72
0.51
0.82
h. m.
10 57.1
11 48.7
12 39.8
m.
2.12
2.14
2.09
d
12.6
13.6
14.6
4
5
6
14 45.6
14 44.9
14 45.7
14 45.1
14 45.1
14 46.9
54 3.3
54 0.7
54 4.0
0.22
—0.00
-4-0.27
54 1.3
54 1.6
54 8.1
—Oil
-hO.lS
0.42
13 29.3
14 16.4
15 1.1
2.01
1.91
1.82
15.6
16.6
17.6
7
8
9
14 48.5
14 53.3
15 0.5
14 50.6
14 56.6
15 5.0
54 14.0
54 31.5
54 57.8
0.67
0.91
1.27
54 21.7
54 43.5
55 14.3
0.78
1.08
1.45
15 43.8
16 25.1
17 6.1
1.76
1.71
1.72
18.6
19.6
20.6
10
11
12
15 10.1
15 21.9
15 35.8
15 15.8
15 28.6
15 43.4
55 32.8
56 16.2
57 7.6
1.68
2.00
2.29
55 53.4
56 41.0
57 35.5
1.82
2.16
2.36
17 47.8
18 31.5
19 18.5
1.77
1.89
2.05
21.6
22.6
23.6
13
14
15
15 51.4
16 7.3
16 22.2
15 59.4
16 14.9
16 28.8
58 4.2
59 2.4
59 57.1
2.41
2.40
2.12
58 33.3
59 30.6
60 21.2
2.42
2.80
1.90
20 10.9
21 8.7
22 11.8
2.27
2.50
2.74
24.6
25.6
26.6
16
17
18
16 34.6
16 43.1
16 46.5
16 39.5
16 45.5
16 46.1
60 42.5
61 13.6
61 26.0
1.64
0.92
-H).10
61 0.2
61 22.3
61 24.6
1.80
+0.62
—0.82
23 ISJ2
6
0 24.5
2.77
2.70
27.6
28.6
0.1
19
20
21
16 44.3
16 37.1
16 25.6
16 41.3
16 31.8
16 18.8
61 18.1
60 51.5
60 9.5
-0.74
1.46
2.00
61 7.0
60 32.1
59 44.5
1.12
1.76
2.18
1 27.5
2 25.5
3 18.5
2.52
2.58
2.18
1.1
2.1
3.1
22
23
24
16 11.6
15 56.3
15 41.2
16 4.0
15 48.6
15 34.1
59 17.8
58 22.1
57 26.9
2.28
2.SS
2.24
58 50.1
57 54.2
57 0.7
2.82
2.80
2.12
4 8.0
4 55.0
5 41.0
1.99
1.98
1.92
4.1
5.1
6.1
25
26
27
15 27.3
15 15.2
15 5.2
15 21.0
15 10.0
15 1.0
56 36.0
55 51.6
55 14.8
1.99
1.69
1.87
56 12.9
55 32.2
54 59.5
1.85
1.58
1.21
6 27.1
7 14.3
8 3.2
1.98
1.97
2.04
7.1
8.1
9.1
28
29
30
31
14 57.3
14 51.4
14 47.4
14 45.1
14 54.1
14 49.2
14 46.0
14 44.6
54 46.0
54 24.6
54 10.1
54 1.8
1.06
0.75
0.48
0.28
54 34.4
54 16.5
54 5.3
53 59.8
0.90
0.61
0.86
—0.11
8 53.4
9 44.5
10 35.6
11 25.6
2.11
2.16
2.12
2.04
10.1
11.1
12.1
13.1
32
14 44.5
14 44.6
53 59.2
—0.00
53 59.8
-4-0.10
12 13.6
1.94
14.1
JANUARY, 1855.
III.
MEAN
TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour
Right Aacension.
Diff
fori m.
DecUnaUon.
Diff.
forlm.
Hour.
Ditr.
forlm.
Declination.
Difll
forlm.
MO]
>JDAY
1.
WEDNESDAY 3.
h. m. ■.
■.
O 1 «
If
h. m. s.
«.
o r IT
u
0
5 16 46.29
2.2163
N.25 34 35.3
4.620
0
7 4 0.19
2.2225
N.26 45 4,0
L701
1
5 18 59.30
2.2180
25 39 8.6
4.498
1
7 6 13.49
2.2208
26 43 18.0
1.833
2
5 21 12.43
2.2196
25 43 34.3
4.864
2
7 8 26.67
2.2190
26 41 24.2
1.963
3
5 23 25.66
2.2215
25 47 52.3
4.335
3
7 10 39.75
3.2172
26 39 22.6
3.001
4
5 25 38.99
2.2382
25 52 2.4
4.106
4
7 12 52.72
3.2152
26 37 13.2
3.230
5
5 27 52.42
2.2247
25 56 4.9
8.9n
5
7 15 5.56
2.2131
26 34 56.2
3.348
6
5 30 5.94
2.2263
25 59 59.7
8.848
6
7 17 18.27
2.2110
26 32 31.5
3.475
7
5 32 19.55
2.22T7
26 3 46.6
8.718
7
7 19 30.86
2.2087
26 29 59.2
3.602
8
6 34 33.24
2.2290
26 7 25.8
8.588
8
7 21 43.31
2^2063
26 27 19.2
3.780
9
5 36 47.02
2.2303
26 10 57.1
8.456
9
7 23 55.61
3.2039
26 24 31.6
3.867
10
5 39 0.88
2.2318
20 14 20.5
8.827
10
7 26 7.78
3.3015
26 21 36.3
3.968
11
5 41 14.81
2.2330
26 17 36.1
8.195
11
7 28 19.78
3.1991
26 18 33.6
8.108
12
5 43 28.81
3.2340
26 20 43.9
8.064
12
7 30 31.65
3.1966
26 15 23.4
8.338
13
5 45 42.87
2.2350
26 23 43.8
2.932
13
7 32 43.37
3.1940
26 12 5.7
8.857
14
6 47 57.00
2.2360
26 26 35.7
2.800
14
7 34 54.93
3.1913
26 8 40.6
8.481
15
5 50 11.18
2.2869
26 29 19.8
2.668
15
7 37 6.33
3.1887
26 5 8.0
8.606
16
5 52 25.41
2.2378
26 31 55.9
2.585
16
7 39 17.57
3.1860
26 128.0
8.738
17
5 54 39.69
2.2386
26 34 24.0
2.408
17
7 41 28.64
3.1832
25 57 40.6
8X51
18
5 56 54.02
2.2398
26 36 44.2
2.270
18
7 43 39.54
2.1803
25 53 45.9
8X78
19
5 59 8.40
2.2399
26 38 56.5
2.138
19
7 45 50.27
^1773
25 49 43.8
4.094
20
6 122.80
2.2403
26 41 0.7
3.006
20
7 48 0.81
3.1743
25 45 34.5
4.315
21
6 3 37.22
2.2407
26 42 57.1
1.873
21
7 50 11.17
3.1712
25 41 18.0
4X85
22
6 5 51.67
2.2411
26 44 45.4
1.740
22
7 52 21.35
2.1681
25 36 54.2
4.455
23
6 8 6.14
2.2415
N.26 46 25.8
1.607
23
7 54 31.34
2.1660
N.25 32 23.4
4X74
TU]
ESDA
Y 2.
THl
IRSD^
lY 4.
0
6 10 20.63
2.2417
N.26 47 58.2
1.478
0
7 56 41.15
2.1618
N.25 27 45.4
4.602
1
6 12 35.12
2.2118
26 49 22.6
1.840
1
7 58 50.76
2.1567
25 23 0.3
4X10
2
6 14 49.63
2.2418
26 50 39.0
1.207
2
8 1 0.17
2.1562
25 18 8.2
4X27
3
6 17 4.13
2.2118
26 51 47.5
1.076
3
8 3 9.38
2.1518
25 13 9.0
6X44
4
6 19 18.62
2.2417
26 52 48.0
0.942
4
8 5 18.38
3.1483
25 8 2.9
6.160
5
6 21 33.11
2.2415
26 53 40.4
0.806
5
8 7 27.19
3.1450
25 2 49.8
6.277
6
6 23 47.59
2.2412
26 54 24.8
OJFli
6
8 9 35.79
3.1417
24 57 29.7
5X92
7
6 26 2.04
2.2408
26 55 1.1
0.540
7
8 11 44.18
3.1882
24 52 2.8
5X05
8
6 28 16.48
2.0103
26 55 29.5
0.407
8
8 13 52.37
3.1345
24 46 29.2
5.617
9
6 30 30.88
2.2398
26 55 50.0
0.275
9
8 16 0.33
3.1806
24 40 48.8
5.730
10
6 32 45.24
2.2392
26 56 2.5
0.142
10
8 18 8.07
3.1272
24 35 1.7
5X42
11
6 34 59.57
2.2385
26 56 7.0
0.006
11
8 20 15.60
2.1236
24 29 7.0
6.953
12
6 37 13.85
2.2878
26 56 3.6
0.123
12
8 22 22.92
2.1200
24 23 7.3
6X68
13
6 39 28.09
2.2370
26 55 52.2
0.366
13
8 24 30.01
2.1163
24 17 0.1
6.178
14
6 41 42.28
2.2360
26 55 32.9
0.888
14
8 26 36.88
2.1127
24 10 46.4
6.288
15
6 43 56.41
2.2850
26 55 5.6
0.520
15
8 28 43.54
2.1090
24 4 26.2
6X92
16
6 46 10.47
2.2840
26 54 30.4
0.653
16
8 30 49.96
2.1052
23 57 59.5
6.496
17
6 48 24.47
2.2328
26 53 47.1
0.781
17
8 32 56.15
3.1014
23 51 26.4
6.606
18
6 50 38.40
2.2816
26 52 65.8
0.920
18
8 35 2.13
3X077
23 44 46.8
6.712
19
6 52 52.26
2.2803
26 51 56.5
IJ092
19
8 37 7.87
3X088
23 38 0.9
6X18
20
6 55 6.03
2.2288
26 50 49.5
1.181
20
8 39 13.38
3.0896
23 31 8.7
6.928
21
6 57 19.70
2.2278
26 49 34.8
1.810
21
8 41 18.65
3.0858
23 24 10.2
7X27
22
6 59 33.29
2.2388
26 48 12.4
1.440
22
8 43 23.69
3.0619
23 17 5.4
7.138
23
7 146.78
2.2242
26 46 42.1
1.670
23
8 45 28.50
3X780
23 9 54.6
7X80
24
7 4 0.19
2.2225
N.26 45 4.0
1.701
24
8 47 33.07
3X741
N.23 2 37.8
7X82
IV.
JANUARY, 1855.
5
MEAN TIME.
1
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
1
Right Aflcenaioo.
Diff.
Ibrlm.
Diff.
for 1 m
Hour.
Right AjKenMiaa.
Diff.
forlm.
DedlnatioQ.
Difr.
forlm.
FRI
DAY
5.
SUNDAY
7.
b. m. •.
•.
O 1 N
N
h. m. B.
■.
O 1 N
M
0
8 47 33.07
9Ur741
N.23 2 37.8
7.882
0
10 22 42.01
1.8070
N.15 28 30.3
11.966
1
8 49 37.40
aonoa
22 55 14.8
7.4S3
1
10 24 35.80
1.8900
15 17 11.1
11309
2
8 51 41.50
9.0068
22 47 45.8
7.083
2
10 26 29.42
1.8999
15 5 48.2
11.414
3
8 53 45.37
9U)0S4
22 40 10.8
7.683
3»
10 28 22.86
1.88M
14 54 21.6
11.475
4
8 55 49.00
%JfMA
22 32 29.9
7.782
4
10 30 16.14
1.8867
14 42 51.3
11.587
5
8 57 52.39
9M45
22 24 43.1
7.880
5
10 32 9.25
1.8840
14 31 17.3
11.508
6
8 59 55.54
3.0006
22 16 50.3
7.997
6
10 34 2.19
1.8819
14 19 39.7
11306
7
9 1 58.46
30)407
22 8 51.8
84)33
7
10 35 54.97
1.8785
14 7 58.5
ii.7n
8
9 4 1.15
3UM9f7
22 0 47.5
8.118
8
10 37 47.60
13708
13 56 13.8
11.775
9
0 6 3.59
9UM7
21 52 37.6
8.212
9
10 39 40.07
1.8788
13 44 25.7
11389
10
9 8 5.79
%aui
2144 22.1
8.800
10
10 41 32.40
13708
13 32 34.1
11368
11
9 10 7.76
%omn
2136 1.0
84)98
11
10 43 24.57
13684
13 20 39.1
11345
13
0 12 9.49
9uno7
2127 34.3
6.401
12
10 45 16.59
1.8661
13 8 40.7
19.009
13
9 14 10.97
3Un97
21 19 2.0
8.068
13
10 47 8.48
13638
12 56 39.0
19.067
U
0 16 12.21
9J>]8T
21 10 24.2
8.678
14
10 49 0.24
1.8014
12 44 34.0
19.110
15
0 18 13.21
3^147
21 141.1
8.763
15
10 50 51.85
13000
12 32 25.8
19.168
16
9 20 13.98
94)106
20 52 52.6
8.808
16
10 52 43.32
13066
12 20 14.5
19.915
17
9 22 14.53
ijxno
20 43 58.8
8.049
17
10 54 34.66
13048
12 8 0.1
19.966
18
9 24 14.85
%om
20 34 59.7
0.080
18
10 56 25.88
13096
1155 42.5
19390
19
9 26 14.93
1.9008
20 25 55.3
0.117
19
10 .58 16.98
13508
1143 21.8
19370
20
9 28 14.78
1.0006
20 16 45.7
0.909
20
11 0 7.96
18188
1130 58.1
19.419
21
9 30 14.41
1.0016
20 7 31.0
0.285
21
11 1 58.82
13468
11 18 31.5
19.466
22
9 32 13.79
1.0078
19 58 11.4
0.368
22
11 3 49.58
13400
11 6 2.1
19317
23
9 34 12.95
1.0840
N.19 48 46.7
0.403
23
11 5 40.22
13483
N.10 53 29.7
19365
SATl
URDA
Y 6.
MO
NDAT^
' 8.
0
9 36 11.88
1.0808
N.19 39 16.9
9M6
0
11 7 30.76
13417
N.10 40 54.5
19319
1
9 38 10.59
1.0706
19 29 42.2
0.618
1
11 9 21.21
13400
10 28 16.4
19.606
2
9 40 9.07
14nS7
19 20 2.7
0.608
2
11 11 11.56
13384
10 15 35.6
19.708
3
9 42 7.33
1.9600
19 10 18.3
0.778
3
11 13 1.81
13366
10 2 52.0
19.748
4
9 44 5.36
1.0650
19 0 29.1
0.808
4
11 14 51.97
1.8858
9 50 5.8
19.799
6
9 46 3.16
1.0616
18 50 35.2
0.088
5
11 16 42 04
13340
9 37 17.0
193S0
6
9 48 0.74
1.9678
18 40 36.5
10.017
6
11 18 32.04
1.8397
9 24 25.6
19378
7
9 49 58.10
14)643
18 30 33.1
104106
7
11 20 21.96
13314
9 11 31.6
19.990
8
9 51 55.26
1.960T
18 20 25.1
10.179
8
11 22 11.80
13309
8 58 35.1
1^909
9
9 53 52.21
i.om
18 10 12.7
10.916
9
11 24 1.57
13900
8 45 36.2
18.009
10
9 55 48.94
1.0487
17 59 55.7
10819
10
11 25 5128
13»0
8 32 34.8
184)49
11
0 57 45.45
1.0109
17 49 34.3
10309
11
11 27 40.92
13970
8 19 31.1
184)89
12
0 59 41.75
1.0067
17 39 8.6
10.460
12
11 29 30.51
13960
8 6 25.0
18.190
13
10 1 37.86
1.0088
17 28 38.6
10.007
13
11 31 20.04
13951
7 53 16.6
18.106
14
10 3 33.76
10306
17 18 4.2
10.010
14
11 33 9.51
13948
7 40 6.0
18.106
15
10 5 29.45
1.0M6
17 7 25.3
104)88
15
11 34 58.94
13935
7 26 53.1
18.988
16
10 7 24.95
1-0383
16 56 42.0
10.705
16
11 36 48.33
13998
7 13 38.0
18.970
17
10 9 20.25
1.0900
16 45 54.7
10.894
17
11 38 37.68
13299
7 0 20.9
13300
18
10 11 15.35
1.0197
16 35 3.3
10.899
18
11 40 27.00
13917
6 47 1.6
18.840
19
10 13 10.26
1.0186
16 24 7.7
10.906
19
11 42 16.28
13219
6 33 40.2
18378
20
10 15 4.99
10104
16 13 8.2
114)90
20
11 44 5.54
13906
6 20 16.8
18.407
21
10 16 59.52
1.0078
16 2 4.7
114)99
21
1145 54.78
13905
6 6 51.4
18.440
22
10 18 53.87
1.0049
15 50 57.1
11.108
22
11 47 44.01
1.8908
5 53 24.0
18.479
23
10 20 48.04
1.9010
15 39 45.7
11.933
23
11 49 33.23
13209
5 39 54.8
18.009
24
10 22 42.01
1.8070
N.15 28 30,3
11.9B8
24
11 51 22.44
1.8901
N. 5 26 23.8
18.089
6
JANUARY, 1855.
V.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right Ascension.
DiflT.
forlm.
DeclioatioQ.
Dtff.
forlm.
Hour.
Right Aacensioa.
Dlffi
forlm.
DecUoaUoiL
DIff.
forlm.
TU]
ESDA^
^9.
THURSDAY 11.
h. m. s.
0.
O 1 If
N
h. m. •.
■.
O 1 M
V
0
11 51 22.44
1.8901
N. 5 26 23.8
lt.689
0
13 20 4.56
1.9079
& 6 44 54.9
14.149
1
11 53 11.64
ISW
5 12 51.0
13.503
1
13 21 59.12
1.0110
6 59 3.2
14.133
3
11 55 0.84
1.8900
4 59 16.4
13.509
2
13 23 53.91
1.9150
6 13 10.9
14.194
3
11 56 50.04
L&109
4 45 40.0
lS4t99
3
13 25 48.94
1.9191
6 27 18.1
14.115 1
4
11 58 39.25
1.8904
4 32 1.9
13UU0
4
vl3 27 44.22
1.9933
6 41 24.9
14.106 '
5
12 0 28.48
1.8907
4 18 22.1
13.6n
5
13 29 39.75
1.9976
6 65 30.9
144)93 {
6
12 2 17.73
1.8910
4 4 40.7
1S.708
6
13 31 35.54
1.9318
7 9 36.2
144)80 1
7
12 4 6.99
1.89U
3 50 57.7
13.730
7
13 33 31.59
1.8383
7 23 40.6
144)67
8
12 5 56.29
1.8918
3 37 13.2
13.796
8
13 35 27.91
1.9400
7 37 44.2
144)58
9
12 7 45.62
ij^m
3 23 27.2
13.778
9
13 37 24.51
1.9469
7 5147.1
144)40
10
12 9 34.99
1.8339
3 9 39.8
U.809
10
13 39 21.39
1.9609
8 5 49.0
14.09a ,
11
12 11 24.40
1.8238
2 55 51.0
13.896
11
13 41 18.55
1.9550
8 19 49.9
144)06
12
12 13 13.85
1.8915
2 42 0.7
I8.848
12
13 43 16.00
1.8608
8 33 49.8
13.987
13
12 15 3.33
1.8953
2 28 9.1
13 870
13
13 45 13.75
1.8048
8 47 48.6
13.907
U
12 16 52.87
1.8969
2 14 16.3
13.890
14
13 47 11.80
1.9098
9 146.1
13.948 !
15
12 18 42.47
1.8979
2 0 22.2
13.910
15
13 49 10.15
14y790
9 15 42.3
IS.997
16
12 20 32.13
1.8983
1 46 27.0
13 980
16
13 61 8.81
14809
9 29 37.2
1S.906
17
12 22 21.86
1.8990
1 32 30.6
13.850
17
13 53 7.79
1.9856
9 43 30.8
19.889
18
12 24 11.66
1.8308
1 18 33.1
18.908
18
13 55 7.08
14008
9 57 23.0
13.837
19
12 26 1.54
1.8399
1 4 34.5
13.985
19
13 57 6.70
1.9983
10 11 13.7
13.830
20
12 27 51.51
1«37
0 50 34.9
14.001
20
13 59 6.66
^18
10 25 2.7
13.809 ;
21
12 29 41.57
1.8359
0 36 34.4
144)17
21
14 1 6.97
94)076
10 38 50.0
13.773 1
22
12 31 31.72
1.8367
0 22 33.1
144)39
22
14 3 7.61
S4)1S3
10 52 35.5
13.743 1
23
12 33 21.97
1.8383
N. 0 8 30.8
144)45
23
14 5 8.60
94)103
&11 619.2
18.711 1
WED]
VESDi
VY 10.
FR
[DAY
12.
0
12 35 12.33
1.8101
& 0 5.32.3
IAMB
0
14 7 9.94
34B99
&11 20 0.91 1*^8
1
12 37 2.80
1.8490
0 19 36.2
14.071
1
14 9 11.64
S4I819
1133 40.6
13.016 ,
2
12 38 53.38
1.8438
0 33 40.9
140)83
2
14 11 13.70
9.0874
11 47 18.2
13.010
3
12 40 44.08
1.8450
0 47 46.3
lAJOH
3
14 13 16.14
94)437
12 0 63.7
13.674
4
12 42 34.90
1.8480
1 152.3
14.106
4
14 15 18.95
94)600
12 14 27.0
1S.4J7 !
5
12 44 25.85
18500
1 15 59.0
14.115
5
14 17 22.15
94)903
12 27 68.1
18.407 ,
6
12 46 16.93
1.8593
130 6.2
i4.m
6
14 19 25.73
94)097
12 41 26.6
13.496 .
7
12 48 8.14
1.8M7
1 44 13.9
14.139
7
14 21 29.69
94)693
12 64 52.6
13.413 '
8
12 49 59.49
1.8570
158 22.1
14.140
8
14 23 34.06
94)700
13 8 16.1
13.370
9
12 51 50.99
14)596
2 12 30.7
14.147
9
14 25 38.83
94)898
13 21 37.0
1S.397
10
12 53 42.64
1.8899
2 26 39.7
14.159
10
14 27 44.01
94)897
13 34 56.3
13.989
11
12 55 34.44
1.8617
2 40 49.0
14.156
11
14 29 49.60
94)006
13 48 10.7
13.933
12
12 57 26.40
1.8873
2 54 58.5
14.100
12
14 31 55.61
9.1035
14 123.2
13.183
13
12 59 18.54
1.8709
3 9 8.3
14.103
13
14 34 2.03
9.1106
14 14 32.7
13.133
14
13 1 10.84
1.8739
3 23 18.2
14.106
14
14 36 8.89
9.1178
14 27 39.2
134)89
15
13 3 3.32
1.8769
3 37 28.2
14.108
15
14 38 16.18
9.1959
14 40 42.6
134)30
16
13 4 55.99
1.8793
3 51 38.3
14.108
16
14 40 23.90
9.1395
14 63 42.9
194)77 '
17
13 6 48.85
1.8896
4 5 48.5
14.107
17
14 42 32.08
9.1S98
16 6 39.8
19.990 >
18
13 8 41.90
1.8838
4 19 58.5
14.105
18
14 44 40.70
9.1479
15 19 33.1
19.800
19
13 10 35.15
1.8899
4 34 8.3
14.103
19
14 46 49.76
3.1648
16 32 22.9
19.800
20
13 12 28.60
1.8995
4 48 18.1
14.101
20
14 48 59.28
9.1095
15 46 9.1
19.740
21
13 14 22.26
1.8060
5 2 27.8
14.158
21
14 51 9.27
9.1709
15 57 51.7
19.080
22
13 16 16.14
1.8997
5 16 37.2
14.153
22
14 53 19.73
9.1790
16 10 30.5
19.017
19.660
19.489
23
13 18 10.24
1.9034
5 30 46.2
14.148
23
14 55 30.66
9.18V9
16 23 6.5
24
13 20 4.56
1JJ079
S 5 44 54.9
14.149
24
14 57 42.05
9.1937
s.16 35 36.5
VI.
JANUARY, 1855.
GREENWICH MEAN TIME.
THE
MOOJTS RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AjCdMion.
Dim
forlm.
DecUnaUon.
DIff
forlm.
Hour.
Right Ascension.
Diff.
forlm.
DecUnatlon.
Diff.
fori m.
SATl
JRDA^
IT 13.
MONDAY
15.
h. m. 0.
■.
O 1 N
u
h. m. «.
■.
O 1 l>
n
0
• 14 67 42.05
3 1fiS7
S.16 35 36.5
1^489
0
16 52 59.72
9.6149
S 24 42 22.2
7.047
1
14 59 53.91
3.9017
16 48 3.3
19.419
1
16 55 36.81
96994
24 49 20.0
6.883
3
15 2 6.25
3.9008
17 0 25.9
19.S49
2
16 68 14.39
9.6305
24 66 8.0
6.718
3
15 4 19.09
3.9180
17 12 44.3
19.979
3
17 0 62.44
9.6365
25 2 46.2
6.553
4
15 6 32.41
%'23m
17 24 68.4
19.198
4
17 3 30.98
9.6465
25 9 14.3
6.385
5
15 8 46.23
3.9S46
17 37 8.0
19.199
6
17 6 9.99
9.6543
25 16 32.2
6.918
0
15 11 0.55
3*34ao
17 49 12.9
19.043
6
17 8 49.47
9.6620
25 21 40.0
6.045
7
15 13 15.37
3.9519
18 113.1
11.963
7
17 11 29.41
9.6697
25 27 37.5
5.879
8
15 15 30.70
3.3307
18 13 8.6
11.884
8
17 14 9.80
9ur779
25 33 24.6
5.697
9
15 17 46.53
3.9081
18 24 59.1
11303
9
17 16 50.63
9.6817
25 39 1.0
5.518
10
15 20 2.87
9.9m
18 36 44.7
11.718
10
17 19 31.92
9.69^»
25 44 26.7
5.388
11
15 22 19.72
3.9833
18 48 26.2
11.632
11
17 22 13.64
9.6990
26 49 41.6
5.158
12
15 24 37.09
3.3W8
19 0 0.4
11.543
12
17 24 65.77
9.7060
25 54 45.5
4.977
13
15 26 54.98
3.9099
19 1130.2
11.45-2
13
17 27 38.32
9.7197
25 69 38.6
4.793
14
15 29 13.39
3 SI IS
19 22 54.6
11360
14
17 30 21.27
97193
26 4 20.6
4.607
15
15 31 32.34
3.S909
19 34 13.3
11.967
15
17 33 4.62
9.7959
26 8 51.5
4.490
16
15 33 51.83
3.8991
19 45 26.3
11.170
16
17 35 48.36
9.7393
26 13 11.0
4.931
17
15 36 11.83
3.S880
19 56 33.6
11.079
17
17 38 32.48
3.7385
26 17 19.2
4.049
18
15 38 32.37
3.3400
20 7 34.9
10.979
18
17 41 16.95
3.7445
26 21 15.9
8.859
19
15 40 53.45
3.3508
20 18 30.0
10.869
19
17 44 1.77
9.7503
26 26 1.2
8.658
20
15 43 15.06
9.3648
20 29 19.0
10.765
20
17 46 46.95
9.7560
26 28 34.9
3.463
'21
16 45 37.22
3.8788
20 40 1.8
10.660
21
17 49 32.47
9.7616
26 31 56.9
8.966
22
15 47 59.91
3.3898
20 60 38.2
10.553
22
17 62 18.32
9-7670
26 35 7.0
3.068
23
15 50 23.15
9.3018
S21 1 8.1
10443
23
17 55 4.49
9.7792
S26 38 6.2
9.870
su^
rDAY
14.
TUE
SDAY
16.
0
15 52 46.93
3.4008
S21 1131.3
10.330
0
17 57 60.96
9,7770
S26 40 61.4
3.671
1
15 55 11.24
94100
21 21 47.7
10.917
1
18 0 37.71
9.7817
26 43 25.7
3.471
2
15 57 36.10
94109
21 31 57.2
10.109
2
18 3 24.75
9.-863
26 45 47.9
9.968
3
16 0 1.63
94985
21 41 59.7
9.985
3
18 6 12.06
9 7908
26 47 57.8
9.069
4
16 2 27.51
34370
21 51 65.2
9.865
4
18 8 69.63
9.7960
26 49 55.6
1.858
5
16 4 54.02
34485
22 143.4
9.743
6
18 11 47.45
9.7990
26 5141.0
1.655
6
16 7 21.06
94555
22 1124.3
9.090
6
18 14 35.50
2.80-»
26 63 14.2
1.450
7
16 9 48.64
94645
22 20 67.7
9.494
7
18 17 23.77
9.8069
26 64 35.1
1.943
8
16 12 16.79
94786
22 30 23.4
9.367
8
18 20 12.24
9.8095
26 66 43.5
1.034
9
16 14 45.46
94897
22 39 41.5
9.938
9
18 23 0.91
98196
26 66 39.3
0.895
10
16 17 14.68
9.4917
22 48 51.8
9.105
10
18 25 49.76
9.8155
26 57 22.5
0.615
11
16 19 44.44
9.8007
22 67 54.0
8.979
11
18 28 38.76
9.8189
26 57 63.1
0.406
12
16 22 14.75
9.5098
23 6 48.1
8.837
12
18 31 27.93
9.8906
26 58 11.2
0.198
13
16 24 45.59
9.5188
23 15 34.1
8.698
13
18 34 17.24
9-8^28
26 58 16.8
#Cou
*^ 0.995
14
16 27 16.97
9.5*n
23 24 11.8
8J)58
14
18 37 6.67
2.^248
26 58 9.8
15
16 29 48.89
9.5366
23 32 41.0
8415
15
18 39 56.21
9.8967
26 57 49.8
0.440
16
16 32 21.34
9^5455
23 41 1.6
8.979
16
18 42 45.84
9.8282
26 57 17.0
0.652
17
16 34 54.32
9.5543
23 49 13.4
8.195
17
18 45 35.67
9.8-295
26 56 31.6
0.869
18
16 37 27.83
9.5630
23 57 16.4
7.977
18
18 48 25.36
9.8305
26 55 33.6
1.078
19
16 40 1.86
9.5717
24 5 10.6
7.897
19
18 61 15.21
9.8313
26 54 22.8
1J»6
20
16 42 36.41
9.5803
24 12 55.5
7.674
20
18 64 5.11
9.8819
26 62 59.1
1.509
21
16 45 11.46
9.5888
24 20 31.2
7.519
21
18 56 55.04
9.8393
26 61 22.6
1.717
22
16 47 47.04
9.5973
24 27 57.6
7.369
22
18 59 44.98
2.8305
26 49 33.2
1.930
23
16 50 23.13
9.6058
24 35 14.6
7.905
23
19 2 34.92
9.8324
26 47 31.1
9.149
24
16 52 69.72
9.6149
&24 42 22.2
7.047
24
19 6 24.86
2.8822
S26 46 16.4
9.359
8
JANUARY, 1855.
VII.
GREENWICH
MEAN TIME.
II
<
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour
Right AMeoiicm.
DidC
forlm.
DecUfMUoQ.
Diff.
for 1 m.
Hour.
Diff.
forlm.
Diff
forlm.
WEDJ
^ESDi
lY 17.
FRIDAY
19.
h. m. t.
0.
O 1 N
n
h. m. •.
8.
O f «
M
0
19 5 34.86
ajsan
&26 45 16.4
9.S69
0
21 17 11.58
9.6000
&81 3 45.5
11J06
1
19 8 14.78
S.017
36 42 49.0
llMi
1
21 19 47.29
9.6013
80 53 32.9
11.447
3
19 11 4.66
9.8806
36 40 8.7
9.778
8
31 33 22.52
946M
80 40 51.8
11.687
3
19 13 54.48
3.8907
36 37 15.6
9JW1
3
21 24 57.28
9.6769
80 39 12.4
11.796
4
19 16 44.21
3.83BA
36 34 9.7
8.903
4
21 27 31.56
9.6671
30 17 34.9
11.860
6
19 19 33.92
%9jn
26 30 51.2
MIS
5
21 30 5.37
9.5604
80 5 39.3
11.998
6
19 22 23.51
%»151
26 27 20.1
8.833
6
81 33 38.70
9.6616
19 53 85.7
19.194
7
19 35 12.99
3.8337
26 23 36.4
8.833
7
31 35 11.55
9.6486
19 41 14.3
19.953
8
19 28 2.35
3.8315
26 19 40.1
44na
8
31 37 43.93
9-6368
19 38 55.3
19178
9
19 30 51.57
9.8191
26 15 31.1
4.343
9
31 40 15.83
9.63n
19 16 38.7
19.608
10
19 33 40.65
3.810*
26 11 9.6
4.483
10
31 42 47.25
9.6107
19 3 54.8
19.636
11
19 36 29.57
3.8138
26 6 35.7
4.888
11
81 45 18.19
9.6117
18 51 13.7
19.746
12
19 39 18.32
3.8110
20 1 49.4
4373
13
31 47 48.66
9.6037
18 38 35.4
13.883
1 13
19 42 6.89
9.ao:b
25 56 50.9
6.078
13
31 50 18.65
9.4057
18 35 30.3
13.0n
1 1^
19 44 55.26
9.3013
25 51 40.1
6.383
14
31 52 48.15
9.4877
18 13 38.3
13.000
15
19 47 43.42
94n08
25 46 17.0
6.487
15
21 55 17.17
9.4707
17 59 19.5
11.900
16
19 50 31.36
9.7070
25 40 41.7
6.890
16
21 57 45.71
9.4718
17 46 4.3
I3J07
17
19 53 19.06
9.TW0
25 34 54.2
6.890
17
22 0 13.77
9.48S6
17 33 43.6
11.411
18
19 56 6.52
9.7890
25 28 54.8
8.090
18
33 8 41.34
i.4666
17 19 14.5
13.618
10
19 58 53.74
9.7847
25 22 43.5
8.388
19
33 5 8.44
9.U70
17 5 40.3
11.090
20
30 1 40.69
9.7800
25 16 20.3
8.185
80
33 7 35.06
9.4107
16 53 0.2
11.718
21
30 4 37.37
9.7743
25 9 45.2
8.881
31
83 10 1.31
9.4118
16 38 14.3
11.811'
1 22
30 7 13.75
9.n06
25 3 58.5
8.876
32
82 13 36.89
9.4380
16 84 38.5
11J07
23
20 9 59.84
9.76M
S24 56 0.3
7.068
23
32 14 52.09
9.4103
&16 10 85.3
14.000
THU
RSDA
Y 18.
SATl
JRDA
Y 20.
0
30 13 45.63
9.7806
S.31 48 50.4
7.380
0
83 17 16.83
9.4086
R 15 56 33.6
144)00
1
20 15 31.11
9.74W
24 4129,1
7.460
I
32 19 41.10
9.4007
15 43 14.5
14.178
2
20 18 16.26
9.7498
24 33 56.4
IJSSS
3
22 23 4.91
9.1080
15 88 1.3
14.901
3
20 21 1.07
9.7438
2126 12.5
7.935
3
82 84 88.36
9J853
15 13 43.1
14.146
4
20 23 45.51
9.7380
21 18 17.4
8410
4
32 26 51.15
9J777
14 59 80.0
14.496
5
20 26 39.65
9.73i]
21 10 11.2
8.199
5
22 89 13.59
9.1701
14 44 52.2
14.603
6
20 29 13.41
9.7JIJ.1
21 151.1
8.S75
6
83 31 35.57
9J836
14 80 19.7
14.580
7
20 31 56.81
%T»i
23 53 26.1
BMi
7
22 33 57.10
9.155']
14 15 42.6
14.6S1
8
30 34 39.81
9-7137
23 4147.4
8.733
8
32 36 18.20
9.U79
14 1 1.3
14.791
9
20 37 32.47
9.7070
23 35 58.2
8.908
0
32 38 38.86
%t¥»
13 46 15.9
14.703
10
20 40 4.70
9.7004
23 26 58.5
9.08-}
10
32 40 59.07
9.1333
13 31 86.4
14468
11
30 43 46.54
9.<n38
23 17 48.3
9.3M
11
22 43 18.81
9a»l
13 16 32.9
14.033
13
20 45 27.98
9.8871
23 8 27.7
9.198
12
22 45 38.19
9^190
13 135.6
14A»
13
20 48 9.01
9.8803
22 58 57.0
9.^9^
13
22 47 57.12
9JiJD
13 46 34.5, 16J0I9
14
20 50 49.62
9.8733
22 19 16.2
9.783
11
22 50 15.63
9.10M)
13 3139.9! 16.107 I
15
20 53 29.80
9.8M0
22 39 25.0
9.937
15
22 52 33.72
9.3081
12 16 81.H 16.103
16
20 56 0.54
9.8W8
22 29 2.>.2
lOJM
10
22 54 51.40
9.3913
18 1 10.5 16.316 ;
17
80 58 48.8.",
9.8aia
22 19 15.2
10.347
17
22 57 8.66
9.9843
1145 56.0 16.388
. 18
31 1 27.73
9.«443
22 8 55.6
10.403
18
82 59 85.51
9.9774
1130 38.3, 15J10
10
21 4 0.17
i.ea»
21 58 26.6
10w558
19
83 1 41.96
9.tWH
11 15 17.6 15.308
20
31 6 41.16
9.8390
2147 48.4
10.713
20
83 3 58.01
9.9843
10 59 54.0 16.414
21
81 9 31.70
9A)IH
2137 1.0
I04M5
31
83 6 13.67
9.3577
10 44 37.8 15U68
83
31 11 58.78
94143
2136 4.7
11.013
22
83 8 28.93
9.9619
10 38 59.1 16J01
23
31 14 35.41
94086
31 14 59.5
11.180
83
83 10 43.80
9.9448
10 13 87.8 16349
34
81 17 11.58
9aooo
s21 3 45.5
11J06
84
83 12 58.30
9.9W5
a 9 67 54.1 itjei
II
VIII.
JANUARY, 1855.
9
GREENWICH MEAN TIME.
1
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Aacenakm.
DJff.
forlm.
IVtcUauioa.
Diff
forlm.
Hour.
Right A«:eiuion.
Diff.
fbrlm.
Dedinatiao.
Diff.
torlm.
su>
IDAY
21.
TUESDAY
28.
h. ra. s.
t.
O 1 U
N
h. m. t.
•.
O 1 N
If
0
23 12 58.30
a.as85
& 9 57 54.1
16.361
0
0 54 49.84
94M09
N. 2 42 1.8
16.607
1
23 15 12.42
3.9833
9 42 18.1
16.618
1
0 56 52.19
9.0389
2 57 31.3
16.478
2
23 17 26.17
3.29»
9 26 40.0
15.653
2
0 58 54.42
3.0863
3 12 58.6
16.486
3
23 19 39.55
3.990a
9 10 59.9
16.666
3
1 0 56.54
3.0846
3 28 23.7
16.800
4
23 21 52.57
3.9149
8 55 17.9
16.716
4
1 2 58.57
34)698
3 43 46.5
16.869
5
23 24 5.23
3.9082
8 39 34.1
16.746
5
1 5 0.49
34)813
3 59 7.1
16.894
6
23 26 17.54
3.9094
8 23 48.5
16-774
6
1 7 2.31
94)997
4 14 25.4
16.984
7
23 28 29.51
9.1W7
8 8 1.2
16.800
7
1 9 4.05
94)989
4 29 41.3
16.943
8
23 30 41.15
3.1913
7 52 12.5
16.898
8
1 11 5.70
94)968
4 44 54.6
16.108
9
23 32 52.45
3.1867
7 36 22.4
9
1 13 7.28
94)966
5 0 5.2
16.166
10
23 35 3.42
8.1808
7 20 31.0
16.866
10
• 1 15 8.79
94)948
5 15 13.0
16.108
11
23 37 14.07
9.1748
7 4 38.6
16.884
11
1 17 10.22
94)939
5 30 18.2
164)68
12
23 39 24.39
3.1606
6 48 45.0
16.009
12
1 19 11.68
94)299
6 45 20.7
164)17
13
23 41 34.40
8.1648
6 32 50.4
16.018
13
1 21 12.89
94)919
6 0 20.4
14.970
14
23 43 44.10
3.1666
6 16 55.0
16.039
14
1 23 14.14
94)903
6 15 17.1
14.999
15
23 45 53.51
3.1648
6 0 58.8
16.948
15
1 25 15.34
94)104
6 30 10.9
14.879
16
23 48 2.63
3.1496
5 45 2.0
16.963
16
1 27 16.49
9.0188
6 45 1.6
14.890
17
83 50 11.45
9.1447
5 29 4.7
15^)58
17
1 29 17.61
9.0189
6 59 49.3
14.768
18
23 52 19.96
3.1880
5 13 7.1
16.963
18
1 31 18.69
94)177
7 14 33.9
14.716
19
23 54 28.23
3.1363
4 57 9.2
16.967
19
1 33 19.73
9.0179
7 29 15.3
14.669
20
23 56 36.21
3.1308
4 41 10.9
16.079
20
1 35 20.75
9 0J68
7 43 53.5
14.608
21
23 58 43.92
31968
4 25 12.3
16.077
21
1 37 21.75
94)164
7 58 28.2
14.669
22
0 0 51.37
9.1918
4 9 13.5
16.070
22
1 39 22.73
9.0161
8 12 59.6
14.496
23
0 2 58.55
9.1176
a 3 58 14.7
16.980
23
1 41 23.69
94)160
N. 8 2727.6
144Ur7
MOI
^DAY
22.
WED^
[ESDi^
lY 24. !
0
0 6 5.47
3.1188
S. 3 37 16.0
16.078
0
1 43 24.65
34)160
N. 8 4152.1
lAJm
1
0 7 12.15
t.1069
3 21 17.5
16.073
1
1 45 25.61
34)166
8 56 13.1
14.818
2
0 9 18.59
9.1069
3 5 19.3
16.067
2
1 47 26.57
34)166
9 10 30.4
14.988
3
0 11 24.79
3.1014
2 49 21.5
16.060
3
1 49 27.53
34)160
9 24 44.2
14.108
4
0 13 30.76
3.08n
2 33 24.1
16.069
4
1 51 28.50
3.0)60
9 38 54.3
14.186
5
0 15 36.51
34)040
2 17 27.3
16.049
5
1 53 29.48
34)169
9 53 0.7
144)78
6
0 17 42.03
34)803
2 131.1
16.969
6
1 55 30.46
94)165
10 7 3.2
144)10
7
0 19 47.34
%iOBffJ
1 45 35.5
16.031
7
1 57 31.46
34)168
10 21 1.8
18.046
8
0 21 52.44
34)683
1 29 40.6
16.908
8
1 59 32.50
34)178
10 34 56.6
18.880
9
0 23 57.33
34700
1 13 46.6
16.809
9
2 1 33.57
34)178
10 48 47.5
13.816
10
0 26 2.02
94)766
0 57 53.7
16 878
10
2 3 34.67
3.0184
11 2 34.5
13.748
11
0 28 6.52
34)786
0 42 2.0
16863
11
2 5 35.80
34)190
11 16 17.4
18.680
12
0 30 10.84
3.0706
0 26 11.4
16.883
12
2 7 36.96
94)196
11 29 56.2
18.619
13
0 32 14.97
34)676
S. 0 10 22.0
16.818
13
2 9 38.16
94)903
11 43 30.9
184M9
14
0 34 18.92
30646
N. 0 5 26.2
16.701
14
2 11 39.41
34)911
1157 1.4
13.479
15
0 36 22.70
34)617
0 2113.0
16.766
15
2 13 40.72
94)990
12 10 27.6
13.400
16
0 38 26.32
3-0660
0 36 58.4
16.744
16
2 15 42.08
94)930
12 23 49.5
18.398
17
0 40 29.77
3.0669
0 52 42.3
16.718
17
2 17 43.50
94)940
12 37 7.0
18.966
18
0 42 33.07
34)687
1 8 24.6
164)09
18
2 19 44.98
94)960
12 50 20.2
18.189
19
0 44 36.21
34)619
124 5.3
16.664
19
2 21 46.52
94)961
13 3 29.0
18.108
20
0 46 39.21
90468
1 39 44.3
16.636
20
2 23 48.13
94)979
13 16 33.3
134183
21
0 48 42.06
94)466
155 21.5
16.606
21
2 25 49.81
94)986
13 29 33.0
19.067
22
0 50 44.78
3.0443
2 10 56.9
16.678
22
2 27 51.56
94)998
13 42 28.1
19.880
23
0 52 47.37
34M99
2 26 30.3
16.540
23
2 29 53.40
94)319
13 55 18.7
19.803
24
0 54 49.84
34M09
N. 2 42 1.8
16.607
24
2 31 55.33
30397
N.14 8 4.6
19.796
10
JANUARY, 1855.
IX.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
DUE
Ibrlm.
Declination.
Diff.
fori m.
Hour.
Right AflcensioQ.
Diff.
forlm.
Declination.
Diff.
fbrlm.
THUl
ISDA^
r 25.
SATURDAY 27.
lu m. s.
t.
1 o 1 If
N
h. m. 0.
9.
O # It
^
0
2 31 55.33
3Xt-27
NHS 4.6
13.725
0
4 11 51.06
9.1403
N22 34 8.9
84)93
1
2 33 57.34
3.0343
14 20 45.7
13.W5
1
4 13 59.54
3.1437
22 42 11.0
7.978
2
2 35 59.44
3.0957
14 33 22.1
13.565
2
4 16 8.18
3.1454
22 50 6.3
7.865
3
2 38 1.63
3.0873
14 45 53.7
13^184
3
4 18 16.98
3.1481
22 57 54.7
7.753
4
2 40 3.91
3U»88
14 58 20.3
13.40-2
4
4 20 25.93
3.1507
23 5 36.3
7.687
5
2 42 6.29
3.0404
15 10 42.0
13.319
5
4 22 35.04
3.1533
23 13 11.0
7.583
6
2 44 8.76
34)430
15 22 58.7
13.386
6
4 24 44.31
3.1558
23 20 38.8
7.405
7
2 46 11.34
34)487
15 35 10.3
13.153
7
4 26 53.73
3.1588
23 27 59.5
7.388
8
2 48 14.03
34)455
15 47 16.8
13.087
8
4 29 3.29
3.1607
23 35 13.3
7.173
9
2 50 16.83
34)474
15 59 18.3
11.981
9
4 31 13.00
3.1680
23 42 20.1
74)65
10
2 52 19.74
34)494
16 11 14.7
11.806
10
4 33 22.85
3.1654
23 49 19.7
6jm
11
2 54 22.77
34)518
16 23 5.8
11.808
11
4 35 32.85
3.1678
23 56 12.2
6.616
12
2 56 25.91
34)533
16 34 51.6
11.790
12
4 37 42.99
3.1708
24 2 57.7
6.700
13
2 58 29.17
34)553
16 46 32.1
11.633
13
4 39 53.28
3.1737
24 9 36.1
6.580
14
3 0 32.55
34)578
16 58 07.3
11543
14
4 42 3.71
9.1750
24 16 7.3
6.460
15
3 2 36.06
34)508
17 9 37.1
11.453
15
4 44 14.27
3.1773
24 22 31.2
6.889
16
3 4 39.69
34)618
17 21 1.5
11.363
16
4 46 24.96
3.1796
24 28 47.8
6318
17
3 6 43.45
30635
17 32 20.5
11.370
17
4 48 35.78
3.1817
24 34 57.1
64)97
18
3 8 47.33
34)656
17 43 34.0
11.178
18
4 50 46.74
1.1889
24 40 59.2
5.975
19
3 10 51.35
34)681
17 54 41.9
114)85
19
4 52 57.83
9.1800
24 46 54.0
5.893
20
3 12 55.51
341708
18 5 44.2
10.993
20
4 55 9.05
9.1880
24 52 41.5
5.739
21
3 14 59.80
34)735
18 16 40.9
10.808
21
4 57 20.39
3.1901
24 58 21.5
5.606
22
3 17 4.22
34n48
18 27 31.9
10.803
22
4 59 31.85
3.1933
25 3 54.0
6.489
23
3 19 8.78
34)773
N.18 38.17.2
10.708
23
5 143.44
3.1943
N.25 9 19.1
6.867
FR]
[DAY
26.
SUI
«)AY
28.
0
3 21 13.49
34)795
.\.18 48 56.8
10.613
0
6 3 55.15
S.1903
N25 14 36.8
6.383
1
3 23 18.34
3.0818
18 59 30.6
10.515
1
5 6 6.96
3.1981
25 19 47.0
6.107
2
3 25 23.33
3.0843
19 9 58.5
10.417
2
5 8 18.89
3.3000
25 24 49.6
4.981
3
3 27 28.46
34)866
19 20 20.5
10.817
3
5 10 30.94
3.3018
25 29 44.6
4.855
4
3 29 33.73
3.0800
19 30 36.5
10.317
4
5 12 43.10
3.3036
25 34 32.1
4.738
5
3 31 39.15
34)915
19 40 46.5
10.117
5
5 14 55.36
3.3058
25 39 12.0
4.603
6
3 33 44.72
ojom
19 50 50.5
104)17
6
5 17 7.73
3.3070
25 43 44.3
4.476
7
3 35 50.44
34)965
20 0 48.5
9.916
7
5 19 20.20
3.3087
25 48 9.0
4448
8
3 37 56.31
^0990
20 10 40.4
9.813
8
5 21 32.76
3.3108
25 52 26.0
4.390
9
3 40 2.33
3.1015
20 20 26.1
9.710
9
5 23 45.41
3.3118
25 56 35.3
Ajon
10
3 42 8.50
3 1040
20 30 5.6
9.607
10
5 25 58.16
3.3138
26 0 36.9
8.965
1 11
3 44 14.82
3.1065
20 39 38.9
9.W3
11
5 28 11.00
3-3147
26 4 30.9
8.887
i 1^
3 46 21.29
3.1000
20 49 6.0
9J>09
12
5 30 23.91
3.3160
26 8 17.2
8.708
13
3 48 27.91
3.1U6
20 58 26.8
9.393
13
5 32 36.90
3.3178
26 11 55.8
8.578
14
3 50 34.69
3.1143
21 7 41.2
9.187
14
5 34 49.97
3.3186
26 15 26.6
3.448
15
3 52 41.63
3.1168
21 16 49.3
9.061
15
5 37 3.12
3.3198
26 18 49.5
3.317
16
3 54 48.72
3.1195
2125 51.0
8.975
16
5 39 16.33
3.3308
26 22 4.5
8.187
17
3 56 55.97
3.1331
21 34 46.2
8.867
17
5 41 29.60
3.3918
26 25 11.7
8.057
18
3 59 3.37
3.1347
2143 34.9
8.75P
18
5 43 42.93
3.3338
26 28 11.2
3.997
19
4 1 10.93
3.1378
21 52 17.2
8.650
19
5 45 56.32
3.3338
26 31 2.9
3.796
20
4 3 18.65
3.1399
22 0 52.9
8.510
20
5 48 9 76
9.3347
26 33 46.7
3.666
21
4 5 26.52
9.1835
22 9 22.0
8.430
21
5 50 23.25
3.3355
26 36 22.5
3.588
22
4 7 34.55
3. 1851
22 17 44.4
8.318
22
5 52 36.79
3.3363
26 38 50.5
3.403
23
4 9 42.73
3.1877
22 26 0.0
8.305
23
5 54 50.38
3.3170
26 41 10.6
3.371
24
4 11 51.06
3.1403
N22 34 8.9
8.003
24
5 57 4.02
3.33T7
\ 26 43 22.9
3.140
X.
JANUARY, 1855.
11
r
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
DHE
forlm.
DMlinAtioa.
DiflT.
forlm
Boor.
Right AMension.
DIff.
forlm.
DecliDaUocL
Did:
forlm.
MOI
«)AY
29.
WEDNESDAY 31.
h. m. ■.
■.
0 1 M
N
h. m. ■
■.
O M 1
0
5 57 4.02
2.«T7iN.26 43 22.9
9.140
0
7 43 19.78
9.rm
N.25 55 14.9
4X66
1
5 59 17.70
3.1KKS
26 45 27.3
9.006
1
7 45 30.11
9.1710
25 51 7.4
4.187
2
6 1 31.40
2.M87
26 47 23.8
1.875
2
7 47 40.28
9.1669
25 46 52.7
4.307
3
6 3 45.12
9.3990
26 49 12.3
1.74S
3
7 49 50.28
9.1616
25 42 30.7
4.437
4
6 5 58.86
a.M9a
26 50 52.9
1.611
4
7 52 0.10
9*1698
25 38 1.4
4^7
5
6 8 12.62
9.9995
26 52 25.6
1.480
5
7 54 9.76
9.1508
25 33 25.0
4.667
6
6 10 26.40
9.9997
26 53 50.4
1348
6
7 56 19.24
9.1564
25 28 41.6
4.785
7
6 12 40.18
9.9996
26 55 7.3
1.916
7
7 58 28.53
9.1585
25 23 51.0
4.903
8
6 14 53.96
9.9996
26 56 16.3
\M5
8
8 0 37.65
9*1505
25 18 53.3
5.090
9
6 17 7.74
9.9996
26 57 17.4
0.968
9
8 2 46.58
9.1478
25 13 48.6
5.137
10
6 19 21.52
9.9907
26 58 10.6
0.690
10
8 4 55.32
9.1441
25 8 36.8
5.953
11
6 21 35.29
9.9395
26 58 55.9
0.666
11
8 7 3.87
9.1410
25 3 18.1
5469
13
6 23 49.05
9.99BS
26 59 33.3
0.557
12
8 9 12.23
9.1878
24 57 52.6
5.488
13
6 26 2.80
9.9990
27 0 2.8
0.495
13
8 11 20.39
9.1845
24 52 20.2
5.597
14
6 28 16.52
9.9966
27 0 24.4
0.998
14
8 13 28.36
9.1319
24 46 40.9
5.711
15
6 30 30.21
9.9969
27 0 38.0
0.161
15
8 15 36.13
9.1978
24 40 54.8
5395
16
6 32 43.88
9.9377
27 0 43.7
04)96
16
8 17 43.69
9.1944
24 35 1.9
5^97
17
6 34 57.51
9.9970
27 0 41.5
0.108
17
8 19 51.04
9.1910
24 29 2.3
6.048
18
6 37 11.10
9.9963
27 0 31.4
0.9S3
18
8 21 58.19
9.1175
24 22 56.1
6.159
10
6 39 24.65
9.9966
27 0 13.5
0.866
19
8 24 5.13
9.1140
24 16 43.2
6.970
20
6 41 38.15
9.9946
26 59 47.7
0.497
20
8 26 1186
9.1105
24 10 23.7
0.860
21
6 43 51.60
9.9939
26 59 13.9
0.680
21
8 28 18.38
9.1069
24 3 67.7
6.480
22
6 46 i.98
9.9980
26 58 32.2
0.769
22
8 30 24.68
9.1068
23 57 25.2
6.597
23
6 48 18.30
9.9990
N.26 57 42.6
0.699
23
8 32 30.77
94097
N.23 50 46.2
6.705
TUE
SDAY
30.
THURSI
)AY,
FEB. 1.
0
1
2
6 50 31.57
6 52 44.77
6 54 57.90
9.9906
9.9196
N.26 56 45.2
26 55 40.0
26 54 26.9
1.098
1.154
0
8 34 36.651
9U1061
N.23 44 0.7
6.819
9.916S
1.965
3
6 57 10.95
9.9170
26 53 5.9
1.417
4
6 59 23.92
9.9156
26 51 37.0
1.647
5
7 136.80
9.9160
26 50 0.4
1.675
6
7 3 49.58
9.919S
26 48 16.0
1.804
7
7 6 2.27
9.9106
26 46 23.9
1.088
PHASES (
)F TI
IE MOON
•
8
0
7 8 14.86
7 10 27.34
9.9099
9.9075
26 44 24.1
26 42 16.6
9.069
9.190
10
7 12 39.72
9J90ff7
26 40 1.4
9.816
Daj. h. m.
11
7 14 51.99
9.9086
26 37 38.5
9.445
O Full Moon
»
. 2 20 19.
6
12
7 17 4.14
9.9016
26 35 7.9
9.579
a L4i8t Quart
ter, .
. 11 0 14.
1
13
7 19 16.19
9.1906
26 32 29.7
9.609
0 New Mooi
^ •
. 17 20 37.
9
14
7 2128.12
9.1978
26 29 44.0
9.896
J> First Qumi
ler,
.24 13 39.
3
15
16
7 23 39.92
7 25 51.59
9.1950
9.193S
26 26 50.7
26 23 49.9
9.961
84n7
17
7 28 3.12
9.1910
26 20 41.6
8.909
Ihj. k.
18
7 30 14.51
9.1866
26 17 25.8
8.897
a Apogee,
, .
. . 4 22.
8
19
7 32 25.77
9.1665
26 14 2.5
8.450
<t Perigee,
, ,
. . 18 2.
7
20
7 34 36.89
9.1610
26 10 31.7
8.578
21
7 36 47.85
9.1615
26 6 53.5
8.697
22
7 38 58.65
9.1789
26 3 8.0
3.690
23
7 41 9.29
9.1768
25 59 15.1
8.943
24
7 43 19.78
9.1787
N 25 55 14.9
4.066
12
JANUARY, 1855.
XI.
GREENWICH MEAN TIME.
n
LUNAR DISTANCES. 1
i.
Star's Nun*
P. L.
P.L.
P.L.
P.L.
^%
and
Noon.
of
nih.
of
Vlh.
of
DCh.
of
Position.
DttC
Diff.
DHT
DIff.
1
a Arietis W.
O 1 i,
44 56 11
8134
O 1 M
46 23 39
3131
O 1 N
47 51 11
8199
O 1 II
49 18 45
3193
Saturn W.
10 51 4
81S8
12 18 27
3108
13 46 30
3078
15 15 7
3003
Pollux E.
31 8 18
3978
29 37 38
9988
28 7 6
9991
26 36 43
9998
Regulus E.
67 33 43
3981
66 3 7
9987
64 32 38
9998
63 2 17
9998
2
a Arietis W.
56 36 52
3198
58 430
3197
59 32 7
8198
60 59 42
8198
Aldebann W.
26 3 49
3186
97 30 39
3188
28 57 41
3148
30 24 63
3140
Saturn W.
22 41 32
3011
24 11 6
3011
25 40 40
3009
27 10 13
3011
ReguluB E.
55 32 18
3097
54 2 39
3009
52 33 6
3088
51 3 41
3oa
Spica E.
109 34 51
3031
108 5 4
303S
106 35 93
3000
105 5 47
3034
3
a Arietis W.
68 17 19
3138
69 44 45
3138
71 12 9
3139
72 39 31
8141
Aldebaran W.
37 42 33
3193
39 10 16
3190
40 38 1
3119
42 6 47
3118
Saturn W.
34 37 47
3039
36 7 U
3041
37 36 33
3oa
39 6 62
3048
Regolus E.
43 38 6
3009
42 9 19
3074
40 40 38
3070
39 12 3
3034
Spica E.
07 39 0
3083
96 9 51
3008
94 40 47
3089
93 11 47
3003
4
a Arietis W.
79 55 52
3149
81 23 2
3151
82 50 10
3189
84 17 16
3133
Aldebaran W.
49 24 51
3117
50 52 40
3117
52 20 29
3117
63 48 18
8in
Saturn W.
46 31 53
3084
48 0 59
3008
49 30 3
3066
60 59 4
3000
Rejfulus E.
31 50 53
3116
30 23 2
3193
28 55 20
8130
27 27 47
3130
Spica E.
85 47 43
3078
84 19 4
3078
82 50 28
3061
8121 65
3089
5
a Arietis W.
91 32 24
3180
92 59 21
3189
94 26 16
8183
95 53 10
8183
Aldebaran W.
61 7 22
3118
62 35 12
3118
64 3 2
8118
65 30 52
8118
Saturn W.
58 23 45
3085
59 52 38
3085
61 21 31
3085
62 50 23
3085
Pollux W.
16 51 30
3110
18 19 28
3108
19 47 28
3108
21 15 31
3101
Spica E.
73 59 43
3091
72 31 22
3091
71 3 2
3001
69 34 42
3009
6
Aldebaran W.
72 50 14
3110
74 18 11
3109
75 46 10
8108
77 14 12
8101
Saturn W.
70 14 48
3009
71 43 44
3080
73 12 42
3080
74 4141
3087
Pollux W.
28 36 41
3oed
30 5 5
3068
31 33 31
3084
33 9 0
3081
Spica E.
62 13 10
3001
60 44 52
3003
59 16 32
3000
57 48 10
3088
Antares E.
108 5 2
3083
106 36 30
3080
105 7 56
3070
103 39 21
son 1
7
Aldebaran W.
84 35 14
3000
86 3 36
mm
87 32 4
3081
89 037
son
Saturn W.
82 7 20
3044
83 36 38
3040
85 6 1
3087
86 35 28
3081
Pollux W.
40 25 21
3085
41 54 14
3080
43 23 12
3080
44 62 17
3060 I
Spica E.
50 25 51
3070
48 67 16
3078
47 28 38
3078
46 50 57
3070
Anures E.
96 15 39
3083
94 46 43
3oao
93 17 43
3058
91 48 40
8081 '
Sun E.
134 38 54
3409
133 17 57
3484
131 56 53
3410
130 35 43
3484
8
Aldebaran W.
96 94 48
soao
97 53 59
30O
99 23 18
3087
100 69 45
3000
Saturn W.
94 4 22
3008
95 34 28
9900
97 4 42
9008
98 35 4
9988
Pollux W.
52 19 14
3093
53 48 59
3015
55 18 53
3000
66 48 55
3001
Spica E.
38 35 27
3089
37 6 19
3048
35 37 6
3044
34 7 48
30» 1
Anures E.
84 21 46
3091
82 52 2
3ory
81 22 10
3000
79 52 9
mm '
Sun E.
123 48 12
3419
129 96 17
3419
121 4 14
3408
119 49 3
3308 1
9
Pollux W.
64 21 35
9oao
65 52 41
9047
67 24 0
9017
68 55 32
«9n
Rejfulua W.
28 15 5' sou
29 45 1
98M
31 15 16
98n
32 45 50
9009
Spica E.
26 40 5; mm
25 10 21
30*3
23 40 35
3019
22 10 46
3017
1
Anures E.
72 19 40; mi
70 48 38
9M
69 17 23! 9041 1
67 45 56
9990
XII.
JANUARY, 1855.
13
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1
Star's Name
P. U
P. L.
P. L.
P. L.
and
Midnight.
of
XVh.
of
XVIUh.
of
XXlh.
of
PMitiOQ.
DifE
Dlff.
Diff.
Diff.
O 1 N
O 1 M
O 1 M
O 1 u
1
a Arietis W.
50 46 20
SUM
52 13 58
8196
53^1 36
3196
55 9 14
3196
Saturn W.
16 44 3
8000
18 13 13
3049
19 42 34
3087
21 12 1
8034
Pollux E.
25 0 20
800C
23 36 22
3010
22 626
3018
20 36 31
3097
Regulus E.
61 32 3
8005
60 1 66
3010
58 31 57
3016
57 2 04
8099
2
a Arietis W.
62 27 17
8180
63 54 49
3131
65 22 21
3133
66 49 51
3184
Aldebaran W.
31 52 14
8135
33 19 41
8131
34 47 16
3197
36 14 53
8194
Saturn W.
28 39 47
8089
30 9 20
3084
31 38 51
8035
33 8 20
8037
Regulus E.
49 34 21
8047
48 5 7
3053
46 36 1
3068
45 7 0
8064
Spica E.
103 36 16
3038
102 6 51
3041
100 37 30
3045
99 8 13
8048
3
a Arietis W.
74 6 51
8148
75 34 9
8144
77 125
3145
78 28 40
8147
Aldebaran W.
43 33 35
8117
45 1 24
3117
46 29 13
3117
47 57 2
8117
Saturn W.
40 35 8
8047
42 4 22
3049
43 33 34
3060
45 2 45
8059
Regulus E.
37 43 34
8001
36 15 13
3096
34 46 59
3109
33 18 52
3109
Spica E.
91 52 51
8065
90 13 59
3068
88 45 10
8071
87 16 25
8073
4
a Arietis W.
85 44 21
3155
87 11 24
3157
88 38 25
3168
90 5 25
8156
Aldebaran W.
55 16 7
8117
56 43 55
3117
58 11 44
3117
59 39 33
8117
Saturn W.
52 28 2
8061
53 56 59
3069
55 25 55
3063
56 54 50
1068
Regulus E.
26 023
3148
24 33 10
8168
23 6 11
3170
21 39 27
3184
Spica E.
79 53 24
8085
78 24 56
3087
76 56 30
3088
75 28 6
8080
5
a Arietis W.
97 20 4
8168
98 46 58
8163
100 13 51
3164
101 40 43
8164
Aldebaran W.
66 58 43
8115
68 26 34
8114
69 54 26
3114
71 22 19
8119
Saturn W.
64 19 15
8066
65 48 6
8065
67 16 59
3064
68 45 53
3068
Pollux W.
22 43 37
8000
24 11 48
3006
25 40 2
3093
27 8 20
8091
Spica £.
68 6 22
8009
66 38 3
8008
65 9 45
3093
63 41 27
3004
6
Aldebaran W.
78 42 18
8101
80 10 27
8098
81 38 40
3096
83 6 55
3008
Saturn W.
76 10 43
8066
77 39 47
3059
79 8 55
3051
80 38 5
3047
Pollux W.
34 80 33
8078
35 59 9
3075
37 27 49
8079
38 56 33
8060
Spica E.
56 19 46
8U87
54 5120
3085
53 22 52
3084
51 54 23
8089
Antares E.
102 10 43
3074
100 42 1
8079
99 13 17
3069
97 44 30
3006
7
Aldebaran W.
90 29 15
3079
91 57 59
8007
93 26 49
3069
94 55 45
8066
Saturn W.
88 5 2
8095
89 34 44
3031
91 4 29
8016
92 34 22
8010
Pollux W.
46 21 28
8046
47 50 44
8040
49 20 7
3034
50 49 37
8099
Spica E.
44 31 11
8067
43 2 22
8064
41 33 28
3060
40 4 30
8066
Antares E.
90 19 30
3045
88 50 13
8040
87 20 51
3035
85 51 22
8030
Sun E.
129 14 27
3448
127 53 6
3441
126 31 36
8438
125 9 58
3497
8
Aldebaran W.
102 22 20
3093
103 52 04
8015
105 21 58
8007
106 52 2
9998
Saturn W.
100 5 34
9977
101 36 15
9960
103 7 7
9961
104 38 9
9909
Pollux W.
58 19 7
9998
59 49 28
9985
61 20 0
99n
62 50 42
9968
Spica E.
32 38 24
8035
31 8 56
8089
29 39 23
8099
28 9 46
8096
Antares E.
78 22 0
9006
76 51 41
9986
75 21 11
9978
73 50 31
9960
Sun E.
118 19 42
8387
116 57 12
3379
115 34 31
8300
114 11 39
8358
9
Pollux W.
70 27 16
9017
71 59 14
9905
73 31 26
9883
75 3 54
9880
Regulus W.
34 16 41
9055
35 47 50
9941
37 19 16
9997
38 51 1
9919
Spica E.
20 40 54
8015
19 11 0
3013
17 41 4
8010
16 11 4
3008
_
Antares E.
66 14 15
9090
64 42 23
9909
63 10 15
9997
61 37 52
9885
14:
JANUARY, 1856.
XIII.
1
GREENWICH MEAN TIME.
-
LUNAB DISTANCED
•t
Star** Name
and
Potitiou.
Noon.
P. L.
of
Dur.
nih.
PL.
of
Di£
Vlh.
P. L.
of
Diif.
IXh.
P. L.
of
Difl:
9
Sun
E.
O 1 M
112 48 35
8S49
O f M
111 25 20
8886
O 1 It
no 1 53
8896
O f «
108 38 12
8314
10
Pollux
Regulus
Antares
Sun
W.
W.
E.
E.
76 36 38
40 23 5
60 5 14
101 36 17
9888
9888
9878
8350
78 9 38
41 55 27
58 32 21
100 11 7
9855
9889
9880
893r7
79 42 54
43 28 9
56 59 11
98 45 41
9643
9868
9847
8939
81 16 26
45 1 9
55 25 44
97 19 58
9899
9853 ;
9884 '
8906
11
Pollux
Regulus
Antares
Sun
W.
W.
E.
E.
89 8 48
52 51 11
47 34 6
90 6 51
9779
3764
8127
90 44 15
54 26 15
45 58 51
88 39 14
9740
9756
J748
8110
92 20 2
56 140
44 23 15
87 11 16
9738
9740
9781
8009
93 56 12
57 37 28
42 47 16
85 42 57
3707
9799
2716
8077
12
Regulus
Spica
Antares
Sun
W.
W.
E.
E.
65 42 15
12 13 1
34 42 10
78 15 52
9684
9880
98W
9889
67 20 24
13 45 33
33 4 4
76 45 17
9615
9890
9690
9964
68 58 59
15 19 35
3125 36
75 14 19
9607
9757
9803
9IU3
70 37 58
16 54 59
29 46 44
73 42 55
99n
2707
9588
9994
13
Regulus W.
Spica W.
Sun E.
Fomalhaut E.
78 59 31
25 5 51
65 59 38
104 4 51
9489
9587
9894
9859
80 41 9
26 46 15
64 25 41
102 27 7
9463
9510
9804
9689
82 23 15
28 27 12
62 51 18
100 48 55
9448
M85
978S
9610
84 548
30 8 47
61 16 28
99 10 13
2494
9460
9768
9560
14
Regulus W.
Spica W.
Sun E.
Fomalhaut E.
92 45 22
38 45 2
53 15 45
90 49 43
9898
9847
9666
9490
94 30 39
40 29 53
51 38 18
89 8 16
9811
9896
9647
9*79
96 16 23
42 15 14
50 0 26
87 26 23
9393
9807
9696
9454
98 2 34
44 1 4
48 22 7
85 44 5
9274
3986
3609
3488
15
Spica W.
Sun E.
Fomalhaut E.
52 57 24
40 4 36
77 6 40
9108
9595
9850
54 46 2
38 23 57
75 22 6
9176
9510
9846
56 35 6
36 42 58
73 37 14
9159
9487
9834
58 24 35
35 1 41
71 52 4
3148
3484
9833
20
Antares
Sun
a Arietis
Aldebaran
Saturn
W.
W.
E.
E.
E.
82 21 37
30 51 47
66 37 26
96 47 34
98 39 28
9058
Otoe
9148
9078
9046
84 13 47
32 35 9
64 47 40
9456 1
96 47 5
9067
9417
9103
9088
9059
86 5 37
34 18 20
62 58 17
93 4 51
94 55 02
9079
3436
9179
9100
9071
87 57 9
36 1 18
61 9 18
91 14 5
93 3 18
3093
3487
9196
9199
9068
21
Antares
Sun
a Arietis
Aldebaran
Saturn
W.
W.
E.
E.
E.
97 929
44 31 54
52 11 11
82 5 17
83 49 52
9165
9509
9996
9108
9157
98 58 49
46 13 i
50 25 5
80 16 40
82 0 20
9183
9519
9890
9910
9173
100 47 44
47 63 51
48 39 35
78 28 27
80 11 12
9196
9586
9843
9997
9190
102 36 14
49 34 14
46 54 38
76 40 39
78 22 29
3914
3558
9300
3944
3906 1
22
Sun W.
Fomalhaut W.
a Arietis E.
Aldebann E.
Saturn E.
57 50 15
32 9 52
38 20 5
67 48 10
69 25 15
9641
9966
9535
9884
9995
59 28 14
33 40 57
36 39 26
66 3 1
67 39 7
9660
9990
9561
9858
9819
61 5 48
35 12 51
34 59 38
64 18 19
65 53 25
9678
9886
9600
9878
9381
62 42 57
36 45 28
33 20 43
62 34 5
64 8 10
3608 1
9860
9646
9899
9848
23
Sun W.
Fomalhaut W.
Aldebaran E.
Saturn E.
70 42 18
44 34 34
53 59 58
55 28 31
9795
9608
3484
9441
72 16 53
46 8 58
52 18 35
53 45 54
9815
9801
9514
9460
73 51 2
47 43 25
50 37 41
52 3 45
9888
9801
9534
a«79
75 24 47
49 17 52
48 57 15
50 22 2
3888
3803
3550
3499
XIV.
JANUARY, 1865.
15
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
'1 :
1 9
Star's Name
and
Poflilion.
Midnight.
P. L.
of
Diff.
XVh.
P. L.
of
DlfT
xvmh.
P. L.
of
Diff.
XXP».
P. L.
of
Diff.
Sun
E.
O 1 N
107 14 17
8309
O J H
106 50 9
8991
O 1 H
104 25 47
8978
O 1 n
103 1 10
8966
10
1
Pollux
Regulus
Antares
Sun
W.
W.
E.
E.
82 50 16
46 34 30
53 53 0
95 53 58
9816
9886
9831
8199
84 24 26
48 8 9
52 17 58
94 27 39
9B00
9891
9808
8178
85 58 54
49 42 9
50 43 40
93 1 2
3786
9806
2798
3161
87 33 41
51 16 30
49 9 3
91 34 6
3770
3790
3n8
8146
11
Pollux
Regulus
Antares
Sun
W.
W.
E.
E.
95 33 43
59 13 38
41 10 56
84 14 18
9680
9706
9f70I
8066
97 9 37
60 50 12
39 34 17
82 45 15
9679
9687
9066
8089
98 46 55
62 27 9
37 57 17
81 15 51
9666
9670
3660
8091
100 24 35
64 4 29
36 19 54
79 46 3
3688
3669
9669
8001
12
Regulus
Spica
Antares
Sun
W.
W.
E.
E.
72 17 24
18 31 30
28 7 33
72 11 7
9660
9600
9676
9906
73 57 16
20 8 55
2628 4
70 38 54
9640
9099
9600
9864
75 37 35
21 47 10
24 48 13
69 6 14
3991
9607
9648
9864
77 18 19
23 26 9
23 7 59
67 33 09
9601
3666
3836
3644
13
Regains W,
Spica W.
Sun E.
Fomalhaut E.
85 48 48
31 50 56
59 41 12
97 31 3
9406
9487
9748
3sao
87 33 15
33 33 38
58 5 30
95 51 25
9386
9418
9794
9648
89 16 10
35 16 54
56 29 22
04 11 18
3807
9891
3703
9896
91 0 33
37 0 43
54 53 46
93 30 44
3846
3306
3684
3809
14
Regulus W.
Spica W.
Sun E.
Fomalhaut E.
99 49 12
45 47 23
46 43 25
84 1 22
9966
9968
9S01
9419
101 36 17
47 34 10
45 4 17
82 18 15
9388
9947
9674
9408
103 23 47
49 21 35
43 24 47
80 34 45
9991
9938
3660
3868
105 11 43
51 9 10
41 44 52
78 50 53
3906
9919
9640
9878
15
Spica W.
Sun E.
Fomalhaut E.
60 14 29
33 20 5
70 6 37
9198
an9
9811
62 4 46
31 38 14
68 20 54
9118
9469
9809
63 55 26
2956 7
66 34 57
3399
3464
3991
65 46 29
28 13 50
64 48 46
90-8
9446
9380
20
Antares
Sun
a Aristis
Aldebaran
Saturn
W.
W.
E.
E.
E.
89 48 20
37 44 0
59 20 44
89 23 39
91 11 53
9106
9448
9914
9186
9097
91 39 10
39 26 26
57 32 37
87 33 33
89 20 49
9190
9401
9988
9148
9111
93 29 39
41 8 34
55 44 58
85 43 47
87 30 7
9184
3474
3964
3161
3136
95 19 46
42 50 24
53 57 49
83 54 20
85 39 48
9160
9488
9974
9176
9141
21
Antares
Sun
a Arietis
Aldebaran
Saturn
W.
W.
E.
E.
E.
104 24 20
51 14 13
45 10 20
74 53 17
76 34 11
9931
9669
9896
9961
9998
106 13 1
52 53 50
43 26 41
73 6 20
74 46 18
9949
9686
3496
9979
9941
107 59 15
54 33 3
41 43 45
71 19 50
72 58 51
3906
3604
3468
3997
3966
109 46 4
56 11 52
40 1 32
69 33 46
71 11 50
9988
3693
3190
9810
9376
23
Sun W.
Fomalhaut W.
a Arietis E.
Aldeharan E.
Saturn E.
64 19 40
38 18 38
31 42 50
60 50 19
62 23 21
3716
9841
9696
9419
9807
65 55 58
39 52 13
30 6 5
59 7 1
60 38 59
3786
9896
9760
9489
3886
67 31 50
4126 7
28 30 32
67 24 12
58 55 3
3766
9816
9816
9461
9404
69 7 17
43 0 16
26 56 33
55 41 50
57 11 34
3n6
9806
3878
9479
9499
23
Sun W.
Fomalhaut W.
Aldebaran W.
Saturn W.
76 58 7
50 52 17
47 17 19
48 40 48
3879
9806
96n
9817
78 31 3
52 26 37
45 37 52
47 0 2
3891
3811
9696
9636
80 3 34
54 050
43 58 54
45 19 43
9909
3818
9619
3664
81 35 41
55 34 55
42 20 25
43 39 45
9998
9894
9649
9ff79
16
JANUARY, 1855.
XV.
GREENWICH MEAN
TIME.
1
LUNAR DISTANCES.
5 .
Star's Name
P. L.
P. L.
PL.
P. L.
^1
and
Noon.
of
nih.
of
Vlh.
of
IX\
of
PmiUoo
Diff.
Diif
Diir.
Diff.
O 1 u
O 1 M
O 1 K
O 1 M
23
Pollux
E.
97 50 19
3441
96 7 41
3400
94 25 31
3480
92 43 49
3499
24
Sun
W.
83 7 24
aM7
84 38 43
3965
86 9 39
3964
87 40 12
8001
Fomalhaut W. |
57 8 52
9B31
58 42 39
3&10
60 16 15
3619
61 49 39
3858
a Pegasi
W.
40 58 44
35CT
42 17 54
8534
43 37 52
3486
44 58 32
8454
Aldebaran £. |
40 42 27
9604
39 4 59
3668
37 28 3
3711
35 51 38
3736
Saturn
E.
42 0 11
2591
40 21 3
3609
38 42 20
30i7
37 4 2
3645
PoUux
E.
84 21 37
2566
82 42 23
3003
81 3 31
3631
79 25 4
9037
25
Sun
W.
95 7 33
SUS7
96 35 59
8104
98 4 4
3130
99 31 50
8135
Fomalhaut W.
69 33 28
3911
71 5 33
3938
72 37 23
3934
74 8 59
39U
a Pegasi
W.
51 49 19
885S
53 12 29
3341
54 35 53
8333
55 59 29
8835
Aldebaran
E.
27 57 57
3877
26 25 9
3918
24 53 7
3947
23 21 48
3965
Saturn
E.
28 58 39
3787
27 22 48
3756
25 47 22
3775
24 12 22
3794
Pollux
E.
71 18 13
3716
69 4154
3731
68 5 55
3746
66 30 16
3700
Regulus
E.
107 40 35
3736
106 4 30
3741
104 28 45
3756
102 53 19
3773
26
Sun
W.
106 46 7
3309
108 12 6
3233
109 37 49
8335
111 3 17
8949
Fomalhaut W.
81 43 30
8001
83 13 41
3012
84 43 39
3033
86 13 23
8084
a Pegasi
w.
62 59 0
3306
64 23 4
3306
65 47 9
3307
67 11 12
3309
Pollux
E.
58 36 29
3837
57 2 35
3e3«»
55 28 57
3851
53 55 35
3803
Regulus
E.
95 0 38
3886
93 26 57
2W8
91 53 31
3860
90 20 21
3873
27
Sun
W.
118 6 49
8306
119 30 51
8319
12(5 54 40
8339
122 18 18
8340
Fomalhaut W.
93 38 40
8088
95 7 4
8098
96 35 16
8109
98 3 15
8116
a Pegasi
W.
74 10 51
8333
76 34 37
3335
76 58 20
8380
78 21 57
8334
a Arietis
W.
30 34 59
3330
32 0 33
3314
33 26 25
8300
34 52 34
3189
Pollux
E.
46 12 28
3916
44 40 30
3937
43 8 45
3937
41 37 13
3910
Regulus
E.
82 38 5
3934
81 6 17
3984
79 34 41
3943
78 3 17
3958
28
a Pegasi
W.
85 18 40
8359
86 4144
8366
88 4 41
8370
89 27 31
8375
a Arietis
W.
42 5 56
8156
43 32 55
8156
44 59 58
8153
46 27 2
8183
Saturn
W.
9 13 2
8334
10 38 31
8179
12 5 5
8148
13 32 22
8119
Pollux
E.
34 2 17
3969
32 31 51
3997
31 1 35
3004
29 31 28
8011
Regulus
E.
70 29 1
3993
68 58 40
8000
67 28 27
8007
65 58 24
SOU
29
a Arietis
W.
53 42 48
8148
55 9 59
8149
56 37 9
8148
58 4 20
8149
Aldebaran
W.
23 15 40
3334
24 41 9
3317
26 6 58
3)03
27 33 5
8190
Saturn
W.
20 53 51
3073
22 22 34
3073
23 51 18
8070
25 20 4
8000
Pollux
E.
22 3 6
8049
20 33 54
3059
19 4 53
8067
17 36 3
8070
Regulus
E.
58 30 0
3043
57 0 40
8048
55 31 27
3053
54 2 21
8056
30
a Arietis
W.
65 20 5
3151
66 47 13
8153
68 14 19
8183
69 41 25
8153
Aldebaran
W.
34 46 32
3156
36 13 34
3151
37 40 42
8146
39 7 54
3144
Saturn
W.
32 43 55
3073
34 12 39
3073
35 41 22
3075
37 10 2
3075
Regulus
E.
46 38 12
3060
45 9 38
8064
43 41 9
3066
42 12 45
8001
Spica
E.
100 39 38
8006
99 10 46
8008
97 41 58
8071
96 13 13
8078
31
a Arietis
W.
76 56 52
3153
78 23 57
8153
79 51 2
8163
81 18 7
8168
Aldebaran W.
46 24 51
8183
47 52 22
8139
49 19 56
8138
50 47 32
8130
Saturn
W.
44 33 17
8078
46 1 54
8078
47 30 30
3076
48 59 6
3076
Regulus
E.
34 51 48
8111
33 23 52
8115
31 56 1
8119
30 28 15
8135
!__
Spica
E.
88 50 2
3081
87 21 29
3063
85 52 57
3083
84 24 26
3063
XVI.
JANUARY, 1855.
17
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
u
Sur'tNuM.
P. L.
PL.
PL.
P. L.
^ 5
and
Midnight.
of
XVh,
of
xvnih.
of
XXIh.
of
i^
PtMiliOQ.
DIff.
Diir.
Dior.
Diff.
O 1 II
O 1 II
O / II
O 1 II
23
Pollux E.
91 2 35
9018
89 21 40
S685
87 41 21
9550
86 1 17
9567
24
Sun W.
89 10 34
i019
90 40 14
8037
02 941
8054
93 38 47
8071
1
Fotnalhaat W.
63 22 52
9800
64 55 51
9879
66 28 37
9890
68 1 09| «68 II
a Pejraai W.
46 19 49
843ft
47 41 37
8404
49 3 49
8884
50 26 25
8867
Aldebaran E.
34 15 46
9781
32 40 27
9i87
31 5 42
9819
29 31 30
9849
Saturn E.
35 26 8
9B6S
33 48 39
S68j
32 11 35
9700
30 34 55
9718
Pollux E.
77 46 58
9608
76 9 15
9660
74 31 52
9665
72 54 52
9701
25
Sun W.
100 59 17
SlflO
102 26 26
8166
103 53 17
8180
105 19 50
8194
1
Fomalhaut W.
75 40 22
985A
77 11 30
9967
78 42 24
9978
80 13 4
9989
a Pegasi W.
57 23 12
8819
58 47 2
8814
60 10 58
8810
61 34 58
8808
Aldebaran E.
21 51 16
SOSO
20 21 41
8080
18 53 18
8171
17 26 34
8976
Saturn E.
22 37 46
9818
21 3 35
9883
19 29 50
9854
17 56 32 9879 li
Pollux E.
64 54 66
2778
63 19 53
9787
61 45 8
9801
60 10 40
9814
ReguluB E.
101 18 13
9784
99 43 24
9797
98 8 52
9810
96 34 37
98:18
26
Sun W.
112 28 28
8969
113 53 24
8974
115 18 6
8986
116 42 34
8997
Fomalhaut W.
87 42 53
804A
89 12 10
8056
90 41 13
8067
92 10 3
8078
a Pegasi W.
68 35 13
8319
60 59 11
8813
71 23 7
8316
72 47 1
8318
Pollux E.
52 22 29
9875
50 49 38
9886
49 17 1
9897
47 44 38' 9907 II
Regulua E.
88 47 26
9883
87 14 46
9894
85 42 19
9905
84 10 6
9914
27
Sun W.
123 41 43
3361
125 4 55
8860
126 27 57
8370
127 50 48
8879
Fomalhaut W.
99 31 3
8198
100 58 39
8188
102 26 3
8147
103 53 16
8156
a Pegasi W.
79 45 28
8838
81 8 55
8344
82 32 16
8849
83 55 31
8854
a Arietis W.
36 18 56
8179
37 45 30
8178
39 12 11
8166
40 39 1
8169
Pollux E.
40 5 52
90ft4
38 34 49
9963
37 3 44
9971
35 32 55
9980
Regulus E.
76 32 5
9961
75 1 4
9969
73 30 13
9977
71 59 32
9985
28
a Pegasi W.
90 50 16
88eo
92 12 55
838(i
93 35 27
8803
94 57 52
8397
a Arietis W.
47 54 9
8180
49 21 17
8149
50 48 27
8148
52 15 38
3148
Saturn W.
15 0 8
8101
16 28 19
8069
17 56 40
8081
19 25 13i 3on
Pol'.ux E.
28 1 29
8018
26 31 39
8096
25 1 59
8084
23 32 28 8041
Regulus E.
64 28 28
8090
62 58 40
8096
61 29 0
8039
59 59 27
8037
29
a Arietis W.
59 31 30
8149
60 58 39
8160
62 25 48
8151
63 52 56
3160
Aldebaran W.
28 59 26
8179
30 26 0
3179
31 52 43
8165
33 19 35
8160
Saturn W
26 48 51
8080
28 17 38
8060
29 46 25
8071
31 15 10
8071
Pollux E.
16 7 25
8066
14 38 58
8096
13 10 44
3107
11 42 44
8118
Regulus E.
52 33 20
8063
51 4 25
8067
49 35 35
8079
48 6 51
8075
30
a Arietis W.
71 8 31
8153
72 35 36
8153
74 2 41
8153
75 29 47
8153
Aldebaran W.
40 35 11
8140
42 2 32
8188
43 29 56
8186
44 57 22
8183
Saturn W.
38 38 42
8076
40 7 21
8075
41 36 I
8077
43 4 39
8077
Regulus E.
40 44 26
8093
39 16 8
8097
37 47 55
8109
36 19 49
8107
Spica E.
94 44 31
8074
93 15 51
8076
91 47 12
8078
90 18 37
8079
31
a Arietis W.
82 45 12
S153
84 12 17
8158
85 39 22
8153
87 6 28
8153
Aldebaran W.
52 15 10
8194
53 42 50
8198
55 10 32
8191
56 38 16
8119
Saturn W.
50 27 42
8078
51 56 18
8078
53 24 54
8078
54 53 30
8078
Regulus E.
29 0 37
SISI
27 33 6
8138
26 5 42
8145
24 38 27
8151
Spica E.
82 55 57
3083
81 27 28
8084
79 58 59
80B4
78 30 30 8084 |l
18
FEBRUARY, 1855.
I.
AT GREENWICH APPARENT
NOON,
t
i
i
THE SUN'S
Sidenal
Time
of the
Semidl-
uneler
pewing
the
Merid-
iao.
Bqmtlonof
rime,
10 be
aUedto
Apparent
Diff
for
Ihour.
Apporeni
DIflr. for
Ihuur.
Apparent
DecliDatioa.
Diff.
for
Ihour.
Semi-
diameter.
Thur.
Fri.
Sat.^
1
2
3
h. m. a.
20 58 24.09
21 2 28.29
21 6 31.66
10.189
10.156
10.128
S.17 10 15.4
16 53 5.9
16 35 38.8
42 51
48.26
48.98
16'
16
16
16.05
15.90
15.75
68.24
68.13
68.01
m. 0,
13 51.31
13 58.94
14 5.74
a.
0.833
0.299
0.265
Sun.
Mon.
Tues.
4
5
6
21 10 34.20
21 14 35.93
21 18 36.85
10.069
10.056
10.023
16 17 54.4
15 59 53.1
15 41 35.4
44.68
45.87
46.05
16
16
16
15.59
15.43
15iJ5
67.90
67.79
67.67
14 11.70
14 16.84
14 21.19
0.281
0.198
0.166
Wed.
Thur.
Fri.
7
8
9
21 22 36.98
21 26 36.32
21 30 34.89
9.990
9.958
9.926
15 23 1.5
15 4 11.9
14 45 7.0
46.72
47.87
48.00
16
16
16
15.07
14.88
14.69
67.56
67.45
67.34
14 24.77
14 27.56
14 29.57
0.134
0.102
0.070
Sat.
Sun.
Mon.
10
11
12
21 34 32.68
21 38 29.71
21 42 25.98
9.894
9.862
9.881
14 25 47.2
14 6 12.9
13 46 24.6
48.61
49.22
49.80
16
16
16
14.49
14.30
14.10
67.23
67.12
67.01
14 30.81
14 31.28
14 31.00
0.088
0.006
0.026
Tues.
Wed.
Thur.
13
14
15
21 46 21.51
21 50 16.30
21 54 10.35
9.799
9.768
9.737
13 26 22.6
13 6 7.4
12 45 39.5
50.86
50.90
51.42
16
16
16
13.90
13.70
13.50
66.90
66.79
66.68
14 29.97
14 28.21
14 25.71
0.057
0.088
0.119
Fri.
Sat.
Sun.
16
17
18
21 58 3.67
22 1 56.27
22 5 48.14
9.707
9.677
9.648
12 24 59.1
12 4 6.8
11 43 3.2
51.93
52.42
52.89
16
16
16
13.29
13.08
12.87
66.58
66 48
66.38
14 22.48
14 18.53
14 13.88
0.149
0.179
0.209
Mon.
Tues.
Wed.
19
20
21
22 9 39.30
22 13 29.76
22 17 19.55
9.618
9.590
9.562
11 21 48.4
11 0 23.0
10 38 47.4
53.34
53.77
54.19
16
16
16
12.66
12.45
12,23
66.28
66.18
66.09
14 8.50
14 2.41
13 55.66
0.288
0.266
0.294
Thur.
Fri.
Sat.
22
23
24
22 21 8.70
22 24 57.20
22 28 45.05
9.534
9.507
9.480
10 17 2.0
9 55 7.3
9 33 3.8
54.59
54.97
55.38
16
16.
16
12.01
11.79
11.57
66.00
65.91
65.82
13 48.28
13 40.25
13 31.57
0.822
0.850
0.876
Sun.
Mon.
Tues.
Wed.
25
26
27
28
22 32 32.28
22 36 18.90
22 40 4.94
22 43 50.41
9.455
9.430
9.407
9.385
9 10 51.7
8 48 31.6
8 26 3.9
8 3 28.8
56.68
56.01
56.32
56.61
16
16
16
16
11.34
11.11
10.87
10.63
65.73
65.65
65.57
65.49
13 22.27
13 12.35
13 1.85
12 50.79
0.401
0.426'
0.450 !
0.472
Thur.
29
22 47 35.34
9.862
S. 7 40 46.9
56.89
16
10.39
65.41
12 39.21
0.494
NoT«. — Mean Time of the Semidiann
rter pa«ing may be found by subtracting 0«. 18 from the Sidereal Time. |
-^ r- 1
II.
FEBRUARY, 1855.
19
1
GREENWICH MEAN TIME.
THE MOON'S
Horisoiiul Parallax.
Meridian Pkunaga.
Age.
' ^
NiHXI.
Midnight.
Noon.
DiflT. for
ihour.
Midnight.
DiflT. for
I hour
DiflT. for
1 hour.
1
14 44.5
14 44.6
53 5^.2
—0.00
53 59.8
-hO.lO
h. m.
12 13.6
m.
1.94
d
14.1
2
14 45.1
14 46.0
54 1.6
-H).2l
54 4.7
0.82
12 59.1
1.84
15.1
; 3
14 47.3
14 48.9
54 9.2
0.48
54 15.1
0.54
13 42.4
1.77
16.1
' 4
14 50.8
14 53.1
54 22.3
0.66
54 30.8
0.76
14 24.1
1.77
17.1
1 5
14 55.8
14 58.9
54 40.7
0.88
54 52.0
1.00
15 4.9
1.71
18.1
6
15 2.4
15 6.4
55 4.8
1.13
55 19.2
1.27
15 46.2
1.74
19.1
7
15 10.8
15 15.5
55 35.3
1.41
55 53.0
1.54
16 28.4
1.80
20.1
1 8
15 20.8
15 26.6
56 12.4
1.67
56 33.5
1.81
17 12.8
1.92
21.1
: 9
15 32.8
15 39.4
56 56.1
1.94
57 20.1
2.05
18 1.0
2.11
22.1
10
15 46.2
15 53.4
57 45.4
2.14
58 11.5
2.19
18 54.2
2.32
23.1
11
16 0.7
16 7.9
58 38.1
2.21
59 4.4
2.18
19 52.7
2.53
24.1
12
16 14.9
16 21.6
59 30.4
2.10
59 54.9
1.96
20 55.7
2.67
25.1
I 13
16 27.8
16 33.2
60 17.4
1.T7
60 37.3
1.62
22 1.0
2.69
26.1
14
16 37.7
16 41.2
60 53.9
1.22
61 6.6
0.88
23 5.2
2.60
27.1
15
16 43.4
16 44.4
61 14.9
+0.50
61 18.4
-H).09
6
28.1
16
16 44.0
16 42.3
61 17.0
-0.82
61 10.7
-0.72
0 5.8
2.45
29.1
17
16 39.4
16 35.2
60 59.7
1.09
60 44.4
1.43
1 2.8
2.27
0.7
16
16 29.9
16 23.7
60 25.2
1.74
60 2.7
1.97
1 54.8
2.11
1.7
19
16 16.8
16 9.4
59 37.4
2.16
59 10.3
2.81
2 44.4
2.03
2.7
20
16 1.7
15 53.8
58 41.9
2.89
58 12.9
2.41
3 32.5
1.99
3.7
21
15 45.9
15 38.3
57 44.1
2.88
57 15.9
2.81
4 20.2
1.99
4.7
22
15 30.8
15 23.8
56 48.8
2.20
56 23.2
2.06
5 8.3
2.08
5.7
23
15 17.3
15 11.4
55 59.4
1.98
55 37.6
1.73
5 57.8
2.08
6.7
24
15 6.0
15 1.2
55 18.0
1.54
55 0.6
1.86
6 48.5
2.12
7.7
25
14 57.1
14 53.7
54 45.5
1.17
54 32.7
0.97
7 39.9
2.14
8.7
26
14 50.9
14 48.6
54 22.3
0.78
54 14.1
0.69
8 31.5
2.12
9.7
27
14 46.9
14 45.8
54 8.1
0.41
54 4.2
—0.26
9 21.7
2.06
10.7
28
14 45.3
14 45.2
54 2.2
—0.10
54 1.9
-H).05
10 10.3
1.97
11.7
29
14 45.6
14 46.4
54 3.3
-M).19
54 6.4
-H).82
10 56.6
1.88
12.7
20
FEBRUARY, 1855.
III.
GREENWICH
MEAN TIME.
1
1
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
['Hour.
Ri^hl A"H'^a^ioJ».
niff. 1
for 1 m
I ecliualion.
DifT.
for 1 m
Hour.
Right AacensioQ.
Dior.
for I in.
Declinatio.i.
Diff.
Ibrlm.
i
TIIU
8 34 36.65
USD AY 1.
SATURDAY 3.
0
».
3.0061
O 1 N
N23 44 0.7
0.813
0
h. m. •.
10 10 55.66
I930i
1 O 1 N
N.16 28 33.3
11436
1
8 36 42.30
aj»25
23 37 8.9
6.917
1
10 12 50.78
19170
16 17 29.7
114B8
2
8 38 47.74
IMMbS
23 30 10.7
7/31
2
10 14 45.71
1.9138
16 6 22.1
11.160
3
8 40 52.97
9j085i
23 23 6.2
7.138
3
10 16 40.44
1.0106
15 55 10.5
11.337
1 4
8 42 57.97
3.0615
23 15 55.5
7.332
4
10 18 34.98
1.0075
15 43 54.9
11.303
I. 5
8 45 2.75
3Um8
23 8 38.5
7.333
5
10 20 29.34
1.0044
15 32 35.4
11.337
«
8 47 7.31
3^41
23 1 15.3
7.438
6
10 22 23.51
1.0013
15 21 12.1
n.m
7
8 49 11.64
3^04
22 53 45.9
7.340
7
10 24 17.50
14083
15 9 45.0
11.483
8
8 51 15.71
3.0867
22 46 10.4
7 All
8
10 26 11.31
14058
14 58 14.1
11.516 1
9
8 53 19.62
3.0630
22 38 28.9
7.* 12
9
10 28 4.95
14091
14 46 39.4
11.608
1 *^
8 55 23.28
3.0301
22 30 41.4
7.SI-2
10
10 29 58.41
1489>
14 35 1.1
11408
1»
8 57 26.71
3ANW2
22 22 48.0
^.n\o
11
10 31 51.70
14867
14 23 19.2
11.738
1 13
8 59 29.90
3.0613
22 14 48.7
8.038
12
10 33 44.81
14639
14 1133.8
11.787
13
9 1 32.86
OJOAlb
22 6 43.5
8.13«
13
10 35 37.76
14813
13 59 44.9
11415
14
9 3 35.60
3.0137
21 58 32.5
8.333
14
10 37 30.55
1.8785
13 47 52.5
11403
15
9 5 38.11
3.0tt8
21 50 15.8
8.337
15
10 39 23.17
14757
13 35 56.7
iijro
16
9 7 40.39
3.0900
214153.4
8U30
16
10 41 15.63
14730
13 23 57.4
13416
17
9 9 42.44
34833
21 33 25.4
8.518
17
10 43 7.95
14705
13 1154.8
13470
18
9 11 44.26
349B6
2124 51.7
8A07
18
10 45 0.11
14680
12 59 48.9
13.134
10
9 13 45.86
34317
21 16 12.5
8.700
19
10 46 52.12
1-8655
12 47 39.8
13.178
' 20
9 15 47.23
34308
21 7 27.8
8.793
30
10 48 43.98
14631
13 35 37.5
13.331
21
9 17 48.36
34170
20 58 37.6
8.883
31
10 50 35.69
140O7
13 33 13.1
13.30)
, 22
9 19 49.27
34183
20 49 42.0
8.973
22
10 52 27.26
1.95M3
13 10 53.6
13.333
23
9 21 49.96
34005
N 20 40 41.1
9J361
33
10 54 18.69
145J0
Nil 58 33.0
13485
FR
IDAY
2.
SU
NDA\
' 4.
0
9 33 50.42
3.0036
.\20 3134.8
9.130
0
10 56 9.99
1.6638
Nil 46 7.4| vuu
1
9 25 50.66
3.0031
20 22 23.2
9.sr
1
10 58 1.15
1.8517
1133 39.8 is.«*4
2
9 27 50.67
1.0083
20 13 6.4
9jm
3
10 59 52.19
18406
11 31 9.3 13Ji83
3
9 39 50.45
1.9016
20 3 44.5
0.408
3
11 1 43.10
14176
11 8 36.0i 13.570
4
9 31 50.00
1.0007
19 54 17.4
9.493
4
11 3 33.88
144M
10 55 59.9
13433
5
9 33 49.33
Ift^O
10 44 45.3
9.477
5
11 6 24.54
1406
10 43 31.0
13470
1 ^
9 35 48.44
1.9833
19 35 8.2
9.661
6
11 7 15.09
14416
10 30 39.4
13,715
7
9 37 47.33
1.9797
19 25 26.0
9>743
7
11 9 5.53
14397
10 17 55.1
13.700
8
9 39 46.00
i.97ao
19 15 38.8
9.837
8
11 10 55.86
14^0
10 5 8.1
13405
9
9 41 44.45
1.97J8
19 5 46.7
9.007
9
11 12 46.08
14303
9 53 18.5
13416
10
9 43 42.68
1.06rir7
18 55 19.9
0.087
10
11 14 36.20
14M5
9 39 26.3
13400
11
9 45 40.09
1.9tU0
18 15 4H.4
10UW7
11
11 16 26.22
14N8
0 36 31.7! 13.901
12
9 47 38.48
1.0614
18 35 42.0
10.146
13
11 18 16.13
14013
0 13 34.6
13473
; 13
9 49 36.06
1.0A78
18 25 30.9
10.333
13
11 20 5.95
14907
0 035.1
18413
14
9 51 33.42
14»«3
18 15 15.2
lOJOO
14
11 21 55.69
14383
8 47 33.3
IS4M
15
9 53 30.57
14W07
18 4 54.9
I0J77
15
11 23 45.34
14388
8 34 39.3
18408
1 >^
9 55 27.51
l.M7i
17 S4 30.1
lOAM
16
11 25 31.91
14355
8 8122.8 18.133
17
9 57 24.24
1.0438
17 44 0.7
10.337
17
11 27 24.40
1.8313
8 8 14.2 18.103
18
9 59 20.77
1.0104
17 33 26.8
lOAOl
18
11 29 13.82
ijnao
7 55 3.4 18.108
19
10 1 17.09
i.oro
17 22 48.6
10UI73
19
1131 3.17
I4]I8
7 4150.5 13.03
1 20
10 3 13.21
I.-iVW
17 12 6.1
10.74*
20
11 32 52.44
1«J07
7 28 35.5 13.M
1 21
10 5 9.12
l.9lr^;
17 1 19.2
10 J* 17
21
U 34 41.65
14197
7 15 18.4 133(13
1, 22
10 7 4.H3
\.v»m
16 50 '2H. 1
10.He7
22
1 1 36 30.80
14I(«
7 1 59.3 40.335
83
10 9 0.34
U9tM
16 39 32.H
10.957
33
11 38 19.90
14179
6 48 38.3 13^
jl 94
10 10 55.66
\J9MH
.V 16 28 33.3
ItJOM
31
11 40 8.»4
14171
N. 6 35 15.4
13.108
IV.
FEBRUARY, 1856.
21
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour
Dlff.
for I m
DecHnatioQ.
Dff.
>r I m.
Hoi.
Diflr.
for 1 m
Declination.
Diflr.
fori m
MONDAY
5.
WEDNESDAY 7.
h. m. «
•.
C 1 M
N
h. m. s.
•.
O 1 M
0
11 40 8.94
18171
N. 6 35 15.4
13.898
0
13 7 39.92
1 t5T4
s. 4 29 40.7
14 010 i
1
11 41 57.93
131tt1
6 2150.6
13.418
1
13 9 31.44
18900
4 43 41.1
14303 ;
2
11 43 46.88
1.81&5
6 8 24.0
13.456
2
13 U 23.13
13628
4 57 41.1
13396
3
11 45 35.78
1.8147
6 54 55.7
18.487
3
13 13 14.99
1.8657
5 1140.6
13387
4
11 47 24.64
1^140
5 4125.7
13.515
4
13 15 7.02
1.8686
5 25 39.5
lS3n
5
11 49 13.46
IJBm
6 27 53.9
13.543
5
13 16 59.23
1.8715
5 39 37.9
13367
6
U 51 2.26
1^131
5 14 20.5
13.570
6
13 18 51.61
13745
5 53 35.6
13.906
7
11 52 51.04
1.8m
5 0 45.5
18.607
7
13 20 44.18
13777
6 7 32.6
13343
8
11 54 39.79
1.8li8
4 47 9.0
1S.6«
8
13 22 36.94
13809
6 21 28.8
13380
9
11 66 28.51
1.8190
4 33 31.0
13.647
9
13 24 29.90
13849
6 35 24.3
13317
10
11 58 17.21
1.8118
4 19 51.5
13.670
10
13 26 23.06
1.88n
6 49 18.9
13309
11
12 0 5.92
1^118
4 6 10.5
13.695
11
13 28 16.43
13919
7 3 12.5
13385
12
12 1 54.63
1.8118
3 52 28.1
18.718
12
13 30 10.01
13947
7 17 5.2
13368
13
12 3 43.35
1.8110
3 38 44.4
18.740
13
13 32 3.80
13983
7 30 56.8
13390
14
12 5 32.07
181)0
3 24 59.4
13.769
14
13 33 57.81
19090
7 44 47.3
13339
15
12 7 20.78
1.81)1
3 11 13.1
13.Tfr2
15
13 35 52.05
13056
7 58 36.6
13319
16
12 9 9.50
1.8193
2 57 25.6
13.801
16
12 37 46.52
13007
8 12 24.7
13.791
17
12 10 58.24
1^135
2 43 37.0
13.818
17
13 39 41.23
13137
826 11.5
18.770
18
12 12 46.99
181*]7
2 29 47.4
13.835
18
13 41 36.18
13177
8 39 57.1
13.748
19
12 14 35.76
i.8iao
2 15 56.7
18.853
19
13 43 31.37
13918
8 53 41.4
13.794
20
12 16 24.55
1.8 134
2 2 5.0
18.870
20
13 45 26.81
19960
9 7 24.2
13399
21
13 18 13.38
1.8149
1 48 12.3
18.885
21
13 47 22.51
1.9308
9 21 5.4
13373
22
12 20 2.25
1.8140
1 34 18.8
13.900
22
13 49 18.47
1-9847
9 34 45.0
13347
23
12 21 51.16
TUE
1.81S7
ISDAl
N. 120 24.5
' 6.
13.914
23
13 51 14.70
THU
1.9899
RSDA
^. 9 48 23.0
T 8.
183
0
12 23 40.12
1.8165
N. 1 6 29.3
18.997
0
13 53 11.19
13437
10 159.4
13.590
1
12 25 29.13
1.8178
0 52 33.3
13.940
1
13 55 7.95
13483
10 15 34.0
18.560 1
2
12 27 18.20
1.8183
0 38 36.6
13.959
2
13 57 5.00
13530
10 29 6.7
13.530 1
3
12 29 7.32
1.819J
0 24 39.2
13.963
3
13 59 2.34
1.9578
10 42 37.6
13.498
4
12 30 56.50
1.8909
N. 0 10 41.1
13.973
4
14 0 59.97
13638
10 56 6.5
13.465
5
12 32 45.74
1^214
S. 0 3 17.5
13.989
5
14 2 57.89
13678
11 9 33.4
13.430
6
12 34 35.06
1^297
0 17 16.6
13.990
6
14 4 56.11
13798
1122 58.2
18.895
7
12 36 24.46
1^240
0 31 16.2
13.998
7
14 6 54.64
13n8
1136 20.9
13358 ^
8
12 38 13.93
18959
0 45 16.3
14.006
8
14 8 53.48
13830
1149 41.3
13391
9
12 40 3.48
1.8966
0 59 16.9
14.013
9
14 10 52.63
19883
12 2 59.5
13.983
10
12 41 53.12
1.8980
1 13 17.8
14.018
10
14 12 52.10
13937
12 16 15.4
13.944
n
12 43 42.85
1.8996
1 27 19.0
144)93
11
14 14 51.90
1.9999
12 29 28.9
13.904
12
12 45 32.68
1.8313
14120.5
144M8
12
14 16 52.02
9.0047
12 42 39.9
13.168
13
12 47 22.61
1.8330
1 55 22.3
14.061
13
14 18 52.47
9-0108
12 55 48.4
13.190
14
12 49 12.64
1.8848
2 9 24.2
14.089
14
14 20 53.26
9.0160
13 8 54.2
18375
15
12 51 2.79
1.8368
2 23 26.1
144)89
15
14 22 54.40
939)8
13 21 57.4
13330
16
12 52 53.06
18388
2 37 28.1
14409
16
14 24 55.89
939n
13 34 57.8
19363
17
12 54 43.45
1.8408
2 5130.1
144»9
17
14 26 57.73
93835
13 47 55.4
19.935
18
12 56 33.96
1.8499
3 5 32.0
144)39
18
14 28 59.92
93893
14 0 50.1
19 885
19
12 58 24.60
1.84fi9
3 19 33.9
144)81
19
14 31 2.47
93454
14 13 41.7
19334
20
13 0 15.37
1.8475
3 33 35.7
144>38
20
14 33 5.38
93517
14 26 30.2
ixim
21
13 2 6.29
1.8498
3 47 37.4
14095
21
14 35 8.67
9.0560
14 39 15.7
li730
22
13 3 57.35
1.8599
4 138.8
U'O^i
22
14 37 12.34
93649
14 51 58.0
19377
23
13 5 48.56
1.8548
4 15 39.9
144)17
23
14 39 16.39
94)705
15 4 37.0
19.699
24
13 7 39.92
1.8574
& 4 29 40.7
144)10
24
14 41 20.82
93770
S 15 17 12.6
19365
22
FEBRUARY, 1855.
GREENWICH MEAN TIME.
THE
MOOITS RIGHT ASCENSION AND DECLINATION.
Hour
Rif ht AxetMlon.
Diff
for 1 m.
Declination.
Diff.
for 1 m.
Hour.
Diff.
lorlm.
Declinatloa.
Diff
Ibrlm.
FR
IDAY
9,
SUNDAY
11.
h. m. s.
B.
O 1 M
u
h. m. ■.
■.
O f N
II
0
14 41 20.82
2.0770
s 15 17 12.6
13.565
0
16 29 38.56
3.4503
&23 46 42.3
84)46
1
14 43 25.65
34)636
15 29 44.7
13.505
1
16 32 5.82
3.4565
23 54 40.9
74)10
2
14 45 30.87
34»oa
15 42 13.3
13.445
2
16 34 33.57
3.4666
24 2 31.4
7.778
3
14 47 36.49
2.0968
15 54 38.3
13.385
3
16 37 1.82
3.4750
24 10 13.6
7.638
4
14 49 42.51
3.1085
16 6 59.7
13.333
4
16 39 30.57
SU881
24 17 47.4
7.493
5
14 51 48.93
S.I103
16 19 17.2
13.356
5
16 41 59.80
3.4913
24 25 12.6
7.351
6
14 53 55.76
a.im
16 31 30.8
13.103
6
16 44 29.52
3.4998
24 32 29.2
7.308
7
14 56 3.01
s.ma
16 43 40.4
12.137
. 7
16 46 59.72
3.6078
24 39 37.2
74)63
8
14 58 10.68
3.1313
16 55 46.0
13.066
8
16 49 30.40
3^5153
24 46 36.5
0 918
9
15 0 18.78
3.1388
17 7 47.5
11.989
9
16 52 1.57
8.5338
24 53 26.8
6.768
10
15 2 27.32
3.1456
17 19 44.8
11.919
10
16 54 33.21
3.5813
25 0 8.0
6.610
11
15 4 36.28
3.1537
17 31 37.8
11.848
11
16 57 5.32
3.5301
25 6 40.0
6.457
12
15 6 45.67
3.1600
17 43 26.4
11.774
12
16 59 37.90
3.5406
25 13 2.8
6.308
13
15 8 55.50
3.1673
17 55 10.5
11.606
13
17 2 10.94
3.5645
25 19 16.3
6.147
14
15 11 5.78
3.1748
18 6 50.1
11.61]
14
17 4 44.44
3.5628
25 25 20.3
6.988
15
15 13 16.51
3.1833
18 18 25.0
11.543
15
17 7 18.40
3.5700
26 31 14.7
6.836
16
15 15 37.69
3.1996
18 29 55.2
11.463
16
17 9 52.82
3.5775
25 36 59.5
6.606
17
15 17 39.33
3.1975
18 41 20.6
11.863
17
17 12 27.68
3.5647
25 42 34.6
64166
18
15 19 51.42
33U53
18 52 41.2
11.801
18
17 15 2.97
3.5917
25 48 0.0
5.340
19
15 22 3.97
3.3136
19 3 56.9
11.317
19
17 17 38.69
3.5986
25 53 15.4
6.175
20
15 24 16.98
3.3305
19 15 7.4
11.130
20
17 20 14.83
3.6000
25 58 20.8
5.007
21
15 26 30.45
3.3283
19 26 12.5
114)40
21
17 22 51.40
3.6181
26 3 16.0
4337
22
15 28 44.39
3.3363
19 37 12.2
104M9
22
17 25 28.39
3.6300
26 8 0.9
4.666
23
15 30 58.81
3.3441
&19 48 6.5
10.669
23
17 28 5.79
34»67
S.26 12 35.6
4.498
SAT1
URDA
Y 10.
MO]
NDAY
' 12.
0
15 33 13.71
3.3530
S 19 58 55.4
10.706
0
17 30 43.58
3.6383
s.26 17 0.0
4.319
1
15 35 29.08
3.3600
20 9 38.7
10.675
1
17 33 21.77
3.6396
26 21 13.9
4.143
2
15 37 44.92
3.3661
20 20 16.4
10.560
2
17 36 0.34
2.6462
26 25 17.2
3.965
3
15 40 1.25
3.3762
20 30 48.3
10.483
3
17 38 39.29
3.6535
26 29 9.7
8.785
4
15 42 18.07
3.3643
20 41 14.4
10.383
4
17 41 18.62
3.6587
26 32 51.3
8.606
5
15 44 35.37
8.3934
20 51 34.5
10.388
5
17 43 58.32
3.6647
26 36 22.1
8.434
6
15 46 63.17
3.3007
21 148.6
10.183
6
17 46 38.37
3.6706
26 39 42.0
8.34S
7
15 49 11.47
3.3000
21 11 56.4
lo/ns
7
17 49 18.77
3.6768
26 42 51.0
84)67
8
15 51 30.26
3-3173
21 21 57.9
9.973
a
17 51 59.52
341830
26 45 48.8
3.670
9
15 53 49.53
3.3353
21 31 53.0
9.664
9
17 54 40.60
3.6875
26 48 35.3
3.668
10
15 56 9.29
3.3335
21 41 41.6
9.755
10
17 57 22.00
34H»8
26 51 10.6
3.405
11
15 58 29.56
3.3418
21 51 23.6
9.645
11
18 0 3.71
3.6076
26 53 34.7
3.307
12
16 0 50.33
3.3503
22 0 59.0
9.533
12
18 2 45.72
3.7037
26 55 47.4
8.116
13
16 3 11.60
3.3585
22 10 27.5
9418
13
18 5 28.02
3.7075
26 57 48.7
1.927
14
16 5 33.36
3.3666
22 19 49.1
9.303
14
18 8 10.60
3.7133
26 59 38.5
1.784
15
16 7 55.62
3.3753
22 29 3.7
9.164
15
18 10 53.46
3.7168
27 1 16.7
1.540
16
16 10 18.39
3.3835
22 38 11.2
9.065
16
18 13 36.60
3.7313
27 2 43.2
1.845
17
16 12 41.66
3.3918
22 47 11.5
8.944
17
18 16 19.99
3.7358
27 3 58.1
1.160
18
16 15 5.44
3.4003
22 56 4.5
8.831
18
18 19 3.62
3.7398
27 5 1.3
0.966
19
16 17 29.71
3.1065
23 4 50.0
8.695
19
18 21 47.48
3.7880
27 5 52.7
0.756
20
16 19 54.48
3»1166
23 13 28.0
8.660
20
18 24 31.57
3.78OT
27 6 32.2
0.560
21
16 22 19.75
3.4351
23 21 58.3
6.441
21
18 27 15.86
8.7400
27 6 59.7
0.800
22
16 24 45.52
3-4335
23 30 20.9
6.311
22
18 30 0.35
3.7483
27 7 15.3
0.160
23
16 27 11.79
3.1416
23 38 35.6
6.179
23
18 32 45.02
3.7463
27 7 18.9
0.039
24
16 29 38.56
3.4503
s 23 46 42.3
84M5
24
18 35 29.87
3.7490
S27 7 10.6 0.338
VI.
FEBRUARY, 1865.
23
GREENWICH MEAN TIME,
1
THE
MOOITS RIGHT
ASCENSION AND DECLINATION.
Hour.
1
Right Aweiuion
Diff.
(brim.
DecUnaUoo.
Diff.
for 1 m.
Hour.
Right AMCenM'wn.
niff.
lor 1 m.
Declination.
for 1 in.
TUE
SDAY
13.
THURSDAY 15.
h. m. ■.
■.
O 1 N
«
h. m. ■.
M,
0 1 «
M
0
18 35 29.87
3.7490
S.27 7 10.6
0.388
0
20 47 3.91
SUM50
S.23 4 5.9
9.640
1
18 38 14.89
a.7517
27 6 50.3
0.480
1
20 49 43.65
3.6505
22 54 22.4
9.810
2
18 41 0.07
3.7M9
27 6 17.9
0.643
2
20 52 23.05
3.6588
22 44 28.7
9.979
3
18 43 45.39
9.7a65
27 5 33.2
o.ai6
3
20 55 2.10
3.6470
22 34 25.0
10.147
4
18 46 30.83
«.7«W
27 4 36.3
\JM
4
20 57 40.80
33430
22 24 11.3
10.319
6
18 49 16.39
S.7«)5
27 3 27.1
1.354
5
21 0 19.15
3.6863
22 13 47.7
10.474
6
18 52 2.06
S.7099
27 2 6.7
1.457
6
21 2 57.16
3.6808
22 3 14.3
10.685
7
18 54 47.83
S.7W7
27 0 32.1
1.661
7
21 5 34.81
3.6943
2152 31.4
10.798
8
18 57 33.68
S.78W
26 58 46.3
1.866
8
21 8 12.08
3.6180
214139.1
lOJMO 1
0
19 0 19.60
a.7W
26 56 48.1
3ani
9
21 10 48.98
3.6117
21 30 37.4
11.105 1
10
19 3 5.58
S.76t8
26 54 37.6
3.377
10
21 13 25.49
3.6053
21 19 26.4
11.350
11
19 5 51.61
9.7fl75
26 52 14.8
3.489
11
21 16 1.62
3.5080
21 8 6.2
11.410
13
19 8 37.67
S.7ttO
26 49 39.8
3.666
12
21 18 37.37
3.5035
20 56 37.0
IIJWO
13
19 11 23.75
a.7«w
26 46 52.6
3.891
13
21 21 12.74
3.586U
20 44 58.9
11.707
14
19 14 9.85
9.78SS
26 43 53.0
zjom
14
21 23 47.72
3.57M
20 33 12.1
11.859
15
19 16 55.95
9.7«e3
26 4041.1
zjm
15
21 26 22.30
3.5738
20 21 16.6
11.906
16
19 19 42.()3
1.7680
26 37 16.9
8.507
16
21 28 56.48
3.5663
20 9 12.5
lil87
17
19 22 28.08
2.7C75
26 33i0.3
26 29 51.5
8.713
17
21 31 30.26
3.5507
19 57 0.0
13J75
18
19 25 14.10
3.7«87
8.915
18
21 34 3.65
3.5530
19 44 39.3
1^411
19
19 28 0.07
5.7686
26 25 50.5
4.118
19
21 36 36.64
35463
19 32 10.6
13.545
20
19 30 45.98
3.7647
26 21 37.4
4.300
20
21 39 9.22
3.5805
19 19 33.9
13.678
21
19 33 31.82
3.7688
26 17 12.1
4.533
21
21 41 41.39
3.5337
19 6 49.2
13.810
22
19 36 17.57
3.7618
26 12 34.6
4.734
22
21 44 13.15
3.5360
18 53 56.8
13.987
23
19 39 3.23
3.7603
S26 7 45.1
4.935
23
21 46 44.50
3.5191
S.18 40 56.8
18.063
WED>
lESDA
lY 14.
FR]
[DAY
16.
0
19 41 48.79
^7W4
S.26 2 43.6
6.135
0
21 49 15.45
3.5138
S.18 27 49.3
18.186
1
19 44 34.23
3.7568
25 57 30.1
5.835
1
21 51 45.99
3.5055
18 14 34.4
18.807
2
19 47 19.54
3.7640
25 52 4.6
5.535
2
21 54 16.12
3.4986
18 1 12.4
18.435
3
19 50 4.71
S.7A16
25 46 27.0
5.735
3
21 56 45.83
3.4017
17 47 43.4
18.543
4
19 52 49.73
3.7480
25 40 37.5
5.933
4
21 59 15.13
3.4848
17 34 7.4
18.697
5
19 55 34.59
3.7463
25 34 36.2
6.130
5
22 1 44.02
3.4780
17 20 24.5
18.770
6
19 58 19.20
3.7436
25 28 23.1
6.817
6
22 4 12.49
3.4719
17 6 34.9
18.880
7
20 1 3.82
3.7405
25 21 58.3
6.519
7
22 6 40.55
9.4ftl3
16 52 38.9
13.987
8
20 3 48.15
3.7873
25 15 21.8
6.707
8
22 9 8.21
3.4575
16 38 36.5
14.Q03
0
20 6 32.28
3.7387
25 8 33.5
6.901
9
22 11 35.46
3.4508
16 24 27.7
14.196
10
20 9 16.19
3.7800
25 1 33.6
7093
10
22 14 2.30
3.4440
16 10 12.8
14.397
11
20 11 59.88
3.7363
24 54 22.3
7363
11
22 16 28.74
9.4379
15 55 51.9
14.396
12
20 14 43.35
3.7335
24 46 59.7
7.479
12
22 18 54.77
3.4804
15 41 25.2
14.493
13
20 17 26.59
3.7185
24 39 25.7
7.660
13
22 21 20.39
3U937
15 26 52.8
14.587
14
20 20 9.58
3*7143
24 31 40.5
7.817
14
22 23 45.61
3.4170
15 12 14.8
14.678 1
15
20 22 52.30
3.7098
24 23 44.0
8.033
15
22 26 10.43
3.4104
14 57 31.3
14.766 i
16
20 25 34.75
3-7053
24 15 36.3
8.318
16
22 28 34.86
3.4038
14 42 42.6
14.866 I
17
20 28 16.93
3.7007
24 7 17.6
8.409
17
22 30 58.90
3.8079
14 27 48.7
14.949 i
18
20 30 58.83
3.6060
23 58 48.1
8.5«l
18
22 33 22.55
3.8907
14 12 49.7
15.095 1
19
20 33 40.44
3.6011
23 50 7.8
8.763
19
22 35 45.80
9.3843
13 57 45.7
15.105 1
20
20 36 21.76
3.6B00
23 41 16.6
8.913
20
22 38 8.66
3.3777
13 42 36.9
15.183 ;
21
20 39 2.77
3.6808
23 32 14.7
9.130
21
22 40 31.12
3.3713
13 27 23.5
15.350!
22
20 41 43.46
3.6755
23 23 2.2
9.395
22
22 42 53.19
3.3647
13 12 5.7
15.383 ,
23
20 44 23.84
3.6703
23 13 39.2
9.468
23
22 45 14.89
3.3584
12 56 43.5
15.405 1
24
20 47 3.91
3.6650
S.23 4 5.9
9.640
24
22 47 36.21
3.8533
S12 41 17.1
15.475 ll
24
FEBRUARY, 1855.
VII.
GREENWICH
MEAN TIME.
TUB
MOON^S RIGHT ASCENSION AND DECLINATION.
Hour.
Right A«c«naioii.
DiflT
furl in
DeclinatloiL
Diflr
forlm.
Hour.
Right AacensioQ.
Wff.
forlm.
Declination.
DiflT.
for 1 m.
SAT
URDA
Y 17.
MONDAY
19.
h. m. a.
a.
1 O 1 N
«
h. m. ■.
0.
O 1 H
»
0
22 47 36.21
iMOfi
&12 41 17.1
10.475
0
0 34 31.33
3.1890
N. 0 21 48.9
10.498
1
22 49 57.15
93400
12 25 46.6
163a
1
0 36 39.16
9.1998
0 38 13.5
10398
2
22 52 17.72
33980
12 10 12.2
10307
3
0 38 46.84
9.1908
0 54 36.6
10379
3
22 54 37.92
Tjort
1154 33.9
1A30B
3
0 40 54.36
9.1944
1 10 58.1
18346
4
22 56 57.75
%xm
U 38 52.0
10.798
4
0 43 1.74
9.1991
1 27 17.9
10317
5
22 59 17.22
S.t9l7
1123 6.5
16.787
5
0 45 8.98
9.1198
1 43 35.9
10.987
6
23 1 36.34
94 IM
11 7 17.5
163U
6
0 47 16.09
9.1176
159 52.1
10307
7
23 3 55.11
93009
10 51 25.2
16398
7
0 49 23.07
9.1168
2 16 6.5
10.996
8
23 6 13.52
93010
10 35 29.7
16300
8
0 51 29.92
9.1189
2 32 18.9
10.191
9
23 8 31.58
9.9»2
10 19 31.2
10300
9
0 53 36.65
9.1119
3 48 29.2
10.166
10
23 10 49.30
9.90^16
10 3 29.8
10347
10
0 55 43.27
9.1088
3 4 37.2
10.117
11
23 13 6.67
9.9808
9 47 25.6
163M
11
0 57 49.78
9.1076
3 20 42.9
10377
12
23 15 23.70
9.9819
9 31 18.8
10 180
12
0 59 56.17
9.1067
3 36 46.3
10387
13
23 17 40.41
9.9700
9 15 9.4
10.177
13
1 2 2.45
9.1040
3 52 47.3
16396
14
23 19 56.79
9.9708
8 58 57.6
10.910
14
1 4 8.63
9.1096
4 08 45.8
16368
15
23 22 12.B4
9.9b60
8 42 43.5
10.908
15
1 6 14.71
9.1010
4 24 41.7
16310
16
23 24 28.58
9.MOT
8 26 27.3
10.987
16
1 8 20.71
93096
4 40 34.9
16 86ft
17
23 26 44.00
9Mt5
8 10 9.0
10390
17
1 10 26.62
1 ll 32.45
93081
4 56 25.3
16318
18
23 28 59.11
9.9403
7 53 48.7
10369
18
93907
5 12 12.9
16.770
19
23 31 13.92
9.9449
7 37 26.6
10309
19
1 14 38.21
93966
6 27 57.6
16.799
20
23 33 28.42
9.9993
7 21 2.9
10.410
20
1 16 43.90
93948
5 43 39.4
16379
21
23 35 42.62
99344
7 4 37.6
10.496
121
1 18 49.52
93932
5 59 18.2
16391
22
23 37 56.53
9.9998
6 48 10.8
10.460
22
1 20 55.07
93999
6 14 53.8
16308
23
23 40 10.16
9.9918
S. 6 3142.7
10.400
23
1 23 0.56
93919
N 6 30 26.1
16318
SUJ
^^DAY
18.
TUE
5DAY
20.
0
23 42 23.51
9.9JD9
s. 6 15 13.4
10.408
0
1 95 6.00
93908
\ 6 45 55.1 I4.4M
1
23 44 36.58
9.9lft7
5 58 43.0
10316
1
I 27 11.39
93896
7 120.8
16.400
2
23 46 49.3H
9.9119
5 42 11.6
10389
2
1 29 16.74
93088
7 16 43.1
16344
3
23 40 1.91
7.'10ff1
5 25 39.4
1034^
3
1 31 22.04
93081
7 32 2.0l 16.987 1
4
23 51 U.17
9.9098
5 9 6.4
I03S7
4
1 33 27.30
93876
7 47 17.51 16.998
»
23 53 26.17
9.I9H0
4 52 32.7
10308
5
1 35 32.54
93870
8 3 29.3 16.107
1 6
23 55 37.92
9.1938
4 35 58.4
10377
6
1 37 37.75
93800
8 17 37.4
16.106
1 7
23 57 49.42
9.1897
4 19 23.6
10.908
7
1 39 42.94
93803
8 32 41.7
1634i
1 8
0 0 0.67
9.I8A7
4 2 48.5
10306
8
1 41 48.10
93000
8 47 42.2
143n
9
0 2 11.68
9.1817
3 46 13.3
10397
9
1 43 53.24
93067
9 02 38.8
14319
10
0 4 22.45
9 1778
3 29 38.1
10367
10
1 45 58.38
93866
9 17 31.5
14346
, 11
0 6 32.99
9.1740
3 13 2 9
10307
11
1 48 3.51
9HI864
9 32 20.1
14.778
12
0 8 43.30
9.1708
2 56 27.8
I03a>
12
1 50 8.63
93868
9 47 4.7| 14.710
13
0 10 53.39
9.1007
2 39 52.9
10.A80
13
1 52 13.75
93064
10 1 45.2, 14340
14
0 13 3.27
9.108'}
2 23 18.3
10.573
14
1 54 18.87
93066
10 16 21.4' 1430B
15
0 15 12.94
9.1597
2 6 44.2
10.606
15
1 56 24.00
93067
10 30 53.3. 14.496
16
0 17 22.40
9.ia<w
1 50 10.6
10.&M
16
1 58 29.14
93099
10 45 20.9; 14.493
17
0 19 31.66
9.1»29
I 33 37.5
10340
17
2 0 34.30
93809
10 59 44. 1| liM
18
0 21 40.73
9.1497
1 17 5.0
18
2 2 39.48
93006
11 14 3.8, 14.976
19
0 23 49.61
9.146A
1 0 33.3
10399
19
2 4 44.68
93000
1128 17.0, 14.199
20
0 25 58.31
9.I43A
0 44 2.6
M306
20
2 6 49.91
93078
1142 26.6 14.199
21
0 28 6.83
9 I40A
0 27 33.0
10.406
21
2 8 55.16
93070
1156 31.61 14346
22
0 30 15.17
9.1176
SI 0 11 4.5
10.406
22
2 11 0.44
93008
13 10 32.o! 18307
23
0 32 23.31
9.UIH
N. 0 5 22.8
10.446
23
2 13 5.75
93HH8
12 24 27.5 13JW7
24
0 31 31.33
9.1SX)
V 0 2148.9
10.193
21
2 15 11.10
93»>
N 12 38 18.2
18300
VIII.
FEBRUARY, 1865.
25
-
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right AaMMion.
Diff
fbrlm.
DeclinMioo.
Diff
forlm
Hour.
Rifht Aacension.
Diir.
for Ira.
D«ailiAtloiL
Diff.
forlm.
WEDN
fESDA
Y 21.
FRIDAY
23.
h. m. s.
■.
1 0 1 «
M
h. m. ■.
t.
O 1 N
n
0
2 15 11.10
3.08M
N.12 38 18.2
10J06
0
3 57 4.52
9.16ir7
N2152 21.8
8J0P
1
2 17 16.49
suwoa
12 52 4.1
13.795
1
3 59 14.58
9.1697
22 1 18.2
8.881
3
2 19 21.94
9U)01O
13 5 45.1
10.649
2
4 1 24.76
9.1707
22 10 7.5
8.769
3
2 21 27.44
iMIB
13 19 21.2
10.500
3
4 3 35.07
9.1797
22 18 49.7
8.6tt
4
2 23 32.99
iM»
13 32 52.2
10.475
4
4 5 45.50
9.1747
22 27 24.7
8.094
5
2 25 38.60
ixm
13 46 18.1
10J80
5
4 7 56.05
9.1767
22 35 52.6
8.405
6
2 27 44.27
aU)948
13 59 38.9
10.000
6
4 10 6.72
9.1787
22 44 13.3
8.985
7
2 29 49.99
%09ae
14 12 54.5
10.916
7
4 12 17.51
9.1807
22 52 26.8
8.165
8
2 31 55.77
9.0068
14 26 4.9
10.198
8
4 14 28.42
3>1897
23 0 33.1
84)45
9
2 34 1.62
34)080
14 39 10.0
104)40
9
4 16 39.45
9.1847
23 8 32.2
7.996
10
2 36 7.54
34)099
14 52 7.8
19.M0
10
4 18 50.60
9.1867
23 16 24.0
7.808
11
2 38 13.54
9.1004
15 5 4.1
19.860
11
4 21 1.86
9.1867
23 24 8.5
7480
IS
2 40 19.61
9.1017
15 17 53.0
19.760
12
4 23 13.24
9.1907
23 31 45.6
7.657
13
2 42 25.76
9.1000
15 30 36.4
19.677
13
4 25 24.74
9.1996
23 39 15.4
7.405
14
2 44 31.98
9.10a
15 43 14.2
19.084
14
4 27 36.35
9.1945
23 46 37.7
7419
15
2 46 38.28
3.10S7
15 55 46.4
19.400
15
4 29 48.08
9.1963
23 53 52.6
7.188
16
2 48 44.67
9.1071
16 8 13.0
19.306
16
4 31 59.92
9.1083
24 1 0.1
7.063
17
2 50 51.15
9.108A
16 20 34.0
19.001
17
4 34 11.87
99000
24 8 0.1
6.988
18
2 52 57.72
9.1100
16 32 49.3
19.905
18
4 36 23.92
9.9018
24 14 52.6
6413
19
2 55 4.38
9.1116
16 44 58.7
19.108
19
4 38 36.08
9.9005
24 2137.7
6.688
20
2 57 11.13
9.1119
16 57 2.3
194)11
20
4 40 48.34
9.9053
24 28 15 2
6.563
21
2 59 17.97
9.1148
17 9 0.1
114)10
21
4 43 0.71
9.9060
24 34 45.0
6.433
22
3 124.91
9.1166
17 20 52.0
11.815
22
4 45 13.18
9.9086
24 41 7.2
6407
23
3 3 31.95
9.1183
N.17 32 37.9 ii.7i5
23
4 47 25.75
9.9103
N24 47 21.8
6.180
THU
RSDA^
Y 22.
SATI
JRDAl
i 24.
0
3 5 39.10
9.1108
N.17 44 17.7
11.614
0
4 49 38.42
9.9119
N.24 53 28.8
64)03
1
3 7 46.35
9.1915
17 55 51.5
11410
1
4 51 51.19
9.9106
24 59 28.1
5.993
2
3 9 53.70
9.1333
18 7 19.2
lUlO
2
4 54 4.05
9.9159
25 5 19.7
5.707
3
3 12 1.16
9.1900
18 18 40.8
11J07
3
4 56 17.00
9.9167
25 11 3.6
5.668
4
3 14 8.73
9.1968
18 29 56.2
11.900
4
4 58 30.04
9.9181
25 16 39.7
5488
5
3 16 16.41
9.1987
18 41 5.3
114)00
5
5 0 43.16
9.9105
25 22 8.1
5.408
6
3 18 24.20
9.1005
18 52 8.2
10.006
6
5 2 56.36
9.9'J08
25 27 28.7
5478
7
3 20 32.09
9.1094
19 3 4.8
10.800
7
5 5 9.65
9.9999
25 3241.5
5.148
8
3 22 40.10
9.1043
19 13 55.0
10.780
8
5 7 23.02
9.9905
25 37 46.5
5418
9
3 24 48.23
^106S
19 24 38.8
10.675
9
5 9 36.47
9.9947
25 42 43.7
4488
10
3 26 56.48
9.1083
19 35 16.1
10.568
10
5 11 49.99
99960
25 47 33.1
4.758
U
3 29 4.85
9.1403
19 45 46.9
10.460
11
5 14 3.58
9.9979
25 52 14.6
4.697
12
3 31 13.33
9.1499
19 56 11.3
10.059
12
5 16 17.24
9.9988
25 56 48.2
4.405
13
3 33 21.92
9.1449
20 6 29.1
10.940
13
5 18 30.97
9.9993
26 113.9
4468
14
3 35 30.64
9.1469
20 16 40.3
10.100
14
5 20 44.76
9.9303
26 5 31.7
4.980
15
3 37 39.48
9.14»2
20 26 45.9
104)91
15
5 22 58.61
9.9010
26 9 41.6
4408
16
3 39 48.44
9.1009
20 36 42.9
9.900
16
5 25 12.51
9.9093
26 13 43.6
0466
17
3 41 57.52
9.1599
20 46 34.1
9.707
17
5 27 26.47
9.9009
26 17 37.6
0434
18
3 44 6.72
9.1549
20 56 18.5
9.684
18
5 29 40.48
9.9040
26 21 23.7
0.709
19
3 46 16.04
9.1069
21 5 56.2
9J71
19
5 31 54.54
9.9047
26 25 1.8
0470
20
3 48 25.49
9.1563
21 15 27.1
9.467
20
5 34 8.64
9>9055
26 28 31.9
0.407
21
3 50 35.06
9.1604
2124 51.1
9.340
21
5 36 22.79
9.3069
26 31 54.0
O40O
22
3 52 44.76
9.1095
2134 8.2
0.998
22
5 38 36.98
9.9368
26 35 8.2
0.170
23
3 54 54.58
9.1646
21 43 18.4
9.110
23
5 40 51.20
9.2379
26 38 14.4
04)07
24
3 57 4.52
9.1667
N.2152 21.8
8.006
24
5 43 5.44
9.9875
N 26 4 112.6
9400
26
FEBRUARY, 1855.
IX.
r
GKEENWICH MEAN TIME.
THB MOOITS RIGHT ASCENSION AND DSCLINATION. |
Hour.
DUE
forlm.
Ptf^^ff****"
DiflT.
tbrlm
Boor.
RlffatAKMMkXL
Ditt
forlm.
DacUiMtioo.
DUC
forlm.
SUI
n)AY
25.
TUESDAY
27.
h. m. a.
•.
O 1 «
«
h. BL a.
■.
O 1 N
H
0
5 43 5.44
8.«7ft
N36 41 13.6
SJOI
7 80 50.73
91080
N.96 97 98.0
0.401
1
5 46 10.70
S.»79
36 44 3.7
a.7T0
7 33 1.85
9.1841
8694 1.1
349ft
3
5 47 33.08
S.96I
36 46 44.8
9jm
7 34 13.83
9.181ft
96 90 95.0
3440
3
5 40 48.30
%jmn
96 40 18.0
%»n
7 36 33.63
9.1788
96 16 43.9
3.773
4
5 53 3.63
9am
36 51 45.0
tJOB
7 38 34.38
9.1709
96 19 53.1
3488
5
5 54 16.05
9.9M9
36 54 3.0
3JM
7 40 44.76
9.1705
96 8 55.7
4419
6
5 56 31.30
%sm
96 56 13.0
t.101
7 48 55.07
9.1707
96 4 50.0
4.141
7
5 58 45.64
%m%
36 58 15.0
1.W7
7 45 5.32
9.1078
96 0 38.8
4.909
8
6 0 50.00
%sm
37 0 0.0
i.8n
7 47 15.90
9.1049
95 56 19.5
4489
0
6 3 14.33
%mi
37 154.0
La00
7 40 35.01
9.1090
95 51 53.0
4408
10
6 5 38.67
%nn
37 3 33.8
IMS
7 51 34.65
9.U01
25 47 10.9
4493
11
6 7 43.00
S.3MB
37 5 3.7
1.431
7 53 44.10
9.|fi61
25 49 38.9
4.7a
19
6 0 57.33
9.»80
37 6 34.5
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7 55 53.37
9.1689
25 37 50.0
4489
13
6 13 11.62
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37 7 38.3
1.109
7 58 3.46
9.1400
25 39 54.8
4480
14
6 14 35.00
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37 8 44.0
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8 0 11.36
9.1480
95 97 59.5
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15
6 16 40.16
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37 0 41.7
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8 3 30.08
9*1438
95 99 43.9
ft.9U
16
6 18 54.38
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37 10 31.3
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8 4 38.61
9.1407
95 17 96.0
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17
6 31 8.56
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37 11 13.0
0.027
8 6 36.05
9.137ft
95 19 3.6
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18
6 33 33.71
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37 1146.5
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8 8 45.09
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95 6 33.4
0409
10
6 35 36.82
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37 12 13.1
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8 10 53.03
9.1308
95 0 5(i.3
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30
6 37 50.88
^»4U
37 12 30.7
o.a»7
90
8 13 0.78
9.197ft
24 55 19.3
0.790
31
6 30 4.80
M»4
37 13 30.3
ojm
91
8 15 8.33
9.1949
94 49 91.6
0409
33
6 33 18.86
s*9m
37 13 40.0
0.040
93
8 17 15.68
9.1908
94 43 94.1
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33
6 34 33.77
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N 37 13 34.6
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83
8 10 83.83
9.117ft
N.94 37 19.8
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MO]
NDAY
26.
WEDI>
^ESDi-
lY 28.
0
6 36 46.63
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N 87 13 30.3
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0
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1
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37 1158.1
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1
8 83 36.52
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94 94 51.3
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6 41 14.13
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8
8 85 43.05
9.1079
94 18 97.1
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3
6 43 37.77
t.nm
37 10 40.0
0.701
3
8 37 40.37
9.1037
94 1156.3
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4
6 45 41.33
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87 10 3.0
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4
8 30 55.48
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94 5 18.9
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5
6 47 54.81
1SM3
37 0 10.0
0.90ft
5
8 33 1.38
9.0046
93 58 35.0
0.78ft
6
6 50 8.31
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37 8 8.1
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6
8 34 7.07
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93 51 44.7
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7
6 53 31.53
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37 6 58.4
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7
8 36 13.55
94ed&
93 44 47.0
6400
8
6 54 34.74
9^106
37 5 40.0
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8
8 38 17.81
93 37 44.8
7.10ft
0
6 56 47.86
%iUO
87 4 15.6
1.407
0
8 40 33.86
94091
93 30 35.4
7410
10
6 50 0.80
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87 8 43.4
1.018
10
8 43 37.60
94787
93 93 19.7
74U
11
7 1 13.83
S.9IM
87 1 1.4
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11
8 44 33.31
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93 15 57.7
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13
7 3 36.66
S-91t7
88 50 13.7
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13
8 46 36.71
9471ft
93 8 90.4
7439
13
7 5 30.36
M108
88 57 16.2
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13
8 48 40.80
94870
93 0 55.0
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14
7 7 51.03
S40W
80 55 11.0
9.10ft
14
8 50 44.85
94049
99 53 14.5
7.79ft
15
7 10 4.38
%vn
86 53 50.0
9.901
15
8 53 48.60
94800
93 45 98.0
749ft
16
7 13 16.73
MM0
36 50 40.3
9400
16
8 54 53.13
94870
93 37 35.5
74ift
17
7 14 88.04
M09B
36 48 13.0
9417
17
8 56 55.44
9403
99 90 36.0
0498
18
7 16 41.03
%mi
36 45 38.0
9444
18
8 58 58.53
94«07
93 3133.3
0.194
10
7 18 53.00
s.i«s
36 43 55.5
9.779
10
0 1 1.41
94400
83 13 31.0
0499
1 «o
7 31 4.89
9.itn
86 40 5.3
9400
80
0 3 4.06
94491
83 5 5.6
0410
: 81
7 93 16.59
S.1M
86 37 7.5
Sj0f7
81
0 5 6.40
94387
31 56 43.5
0-417
33
7 25 98.07
9>lft4
86 34 3.1
8.100
33
0 7 8.70
94040
31 48 15.6
0413
33
7 37 30.47
S>UPO
86 30 40.3
o-m
83
0 0 10.60
94813
31 30 49.0
0408
34
7 30 50.73
s.iat8
N96 97 98.0
0.401
84
0 11 13.46
949n
N.8131 8.7
0.109
■
X.
FEBRUARY, 1855.
27
GREENWICH MEAN TIME.
THE MOOirS RIGHT ASCENSION AND DECLINATION.
PHASES OF THE MOON.
O Full Moon, 1 16 41.9
<C Last Quarter, 9 15 1.0
# New Moon, 16 6 47.9
}> First Quarter, 23 5 34.3
<C Apogee, 1 0.0
<C Perigee, 15 14.5
<C Apogee, 98 8.1
28
FEBRUARY, 1855.
XI.
■
GREENWICH MEAN
TIME.
1
LUNAR DISTANCES.
1.
Sur'sNaoM
P. L.
PL.
P.L.
P.L.
^1
•od
Noon.
of
Illh.
of
Vlh.
of
IXh.
of
PtmiiUja.
Diir
DiflT.
Diif
DIff.
1
a Arietis
W.
O t M
88 33 33
zm
O 1 M
90 0 40
sias
O 1 M
91 37 46
S188
O f II
93 54 54
8151
Aldebarmn W.|
68 6 3
SI 18
59 33 50
SI 18
61 140
8114
68 89 33
SllS
Smtura
W.
56 39 6
1078
57 50 43
son
59 19 31
8078
60 48 1
8075
Pollux
w.
13 51 1
SIM
15 18 41
SI16
16 46 33
siorr
18 14 33
SIOl
Spica
E.
77 3 1
S085
75 33 33
8084
74 6 4
8084
73 36 35
SOSS
9
Aldebaran W.
69 49 37
SIOS
71 17 34
SlOl
78 45 43
8008
74 13 65
8006
Saturn
w.
68 U 35
S(M0
69 40 83
8080
71 9 14
8060
73 38 7
S06S
Pollux
w.
85 36 8
S083
87 4 40
8078
38 33 17
8074
30 1 58
8071
Spica
E.
65 13 65
SOTO
63 45 80
S078
68 16 43
8078
60 48 4
8074
3
Aldebaran W.
81 35 46
S081
83 4 19
SOTO
84 38 56
8078
86 1 35
8079
Saturn
W.
80 3 5
SOftl
81 33 15
8047
83 139
soa
84 30 48
8041
Pollux
W.
37 36 30
SOOA
38 55 35
S0ft3
40 34 34
S04B
41 53 47
8044
Spica
E.
63 84 19
SOM
61 55 37
8084
50 36 33
8081
48 57 36
8056
AnUret
E.
99 15 4
SOftl
97 45 64
8040
96 16 43
8017
94 47 37
soa
4
Aldebaran W.
93 86 0
son
9456 7
8048
96 94 80
8044
97 53 38
8040
Saturn
W.
91 58 18
soss
93 38 3
8010
94 57 51
8016
96 87 45
sooo
Pollux
W.
49 81 3
S09S
50 50 47
SOlO
53 30 36
8015
53 50 30
sooo
Re^^uluB
W.
13 35 30
ssa
15 0 48
8409
16 36 55
SI68
17 53 45
S1S7
Spica
E.
41 33 4
S046
40 8 48
S04S
38 33 39
8041
37 4 7
8030
AnUret
E.
8780 4
S084
85 60 81
SOlO
84 80 33
8014
83 60 36
8000
5
Pollux
W.
61 81 43
9081
68 68 19
9078
64 83 3
9000
65 63 54
908a
Re^uB
W.
85 14 65
S0C7
96 44 10
8084
38 13 41
8091
39 43 38
8010
Spica
E.
89 36 30
SOM
88 6 58
8097
36 37 13
8097
86 7 34
8096
AnUret
E.
76 19 31
MS
73 48 67
son
73 18 15
9071
70 47 86
9064
6
Pollux
W.
73 30 88
990
76 8 16
9818
76 34 14
9008
78 683
9806
Renins
W.
37 15 46
wm
38 46 63
9048
40 18 14
9888
41 49 49
9094
AnUret
E.
63 11 9
9087
6139 86
9890
60 7 31
9019
58 35 87
9809
a Aqoil0
E.
109 35 50
S880
108 81 49
S8S0
107 7 84
S81S
105 68 35
8700
Sun
E.
138 6 34
StIT
130 48 64
8sn
189 19 8
8808
187 54 67
t»5
7
Pollux
W.
8560 4
9801
87 83 86
9840
88 67 8
9880
90 30 53
9818
Regolnt
W.
49 31 0
9870
61 8 67
68 37 10
9847
54 10 38
9885
AnUret
E.
60 58 16
98i0
49 19 1
9848
47 45 38
46 11 51
9895
a Aqnils
E.
99 38 53
S801
98 15 66
8874
96 68 41
8808
95 41 9
8819
Sun
E.
180 51 38
89»
119 86 5
8998
118 0 89
8918
116 34 38
8«I8
8
Re^ut
W.
68 1 50
9T71
63 36 63
fTOO
66 18 15
r48
66 47 54
9^9
Antaret
w.
38 19 63
tm
36 44 46
9f7»
36 983
r48
33 S3 43
9f7S4
a Aquila
E.
89 9 33
S8TS
87 60 31
sa8»
86 31 18
S6A8
85 11 54
8545
Sun
E.
109 31 30
S1S8
107 64 4
Slfll
106 86 80
S187
104 68 18
80O1
9
Reffulut
W.
74 50 65
9880
76 88 88
9848
78 688
8890
79 44 37
98U
S^ca
W.
80 68 10
S7I0
93 34 36
9889
84 U 87
1874
85 48 43
9655 '
AnUret
E.
85 3187
987*
83 64 13
980
88 16 43
9888
8039 0
984S
a Aqoila
E.
78 38 35
8819
77 18 84
saoT
75 68 8
saoft
74 31 49
8505 ,
Sun
E.
97 S3 33
SOU
96 338
9887
94 S3 81
9081
93 8 44
9885
Mart
E.
110 4143
9817
109 9 59
9019
107S7 65
oaoo
106 5 31
9879
1
XII.
FEBRUARY, 1855.
29
"
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1^
Suu^s Nama
P. L.
P. L.
P. L.
P. L.
^1
and
Midnight.
of
XVh.
of
xvmh.
of
XXl»».
of
a^
FbtiUoa
ns:
Diff
DiflT.
DilT.
o 1 n
O 1 »
O 1 II
O f II
1
a Arietis
W.
9433 1
8100
95 49 10
8100
97 16 19
8100
98 43 39
8148
Aldebarwi W.|
63 57 36
8111
65 36 33
8109
66 53 31
8106
68 31 33
8100
Saturn
W.
63 16 41
IOTA
63 45 31
8078
66 14 4
8071
66 42 49
8070
Pollux
W.
19 43 40
lOM
31 10 54
8001
22 39 14
8067
34 7 39
8084
Spica
E.
7i 8 6
8083
69 39 34
8069
68 11 2
8061
66 42 39
8060
3
Aldebarmn W.
76 43 10
8008
77 10 38
8000
78 38 60
8087
80 7 16
8088
Saturn
W.
74 7 3
8061
76 35 69
8000
77 4 69
8058
78 34 0
8000
Pollux
W.
31 30 43
8068
33 69 33
8060
34 38 24
8063
35 57 20
8000
Spica
E.
69 19 33
8078
67 60 41
8071
66 31 66
8060
64 53 9
8067
3
Aldebaran W.
87 30 19
8060
88 59 6
8060
90 27 68
8060
91 66 67
8006
Saturn
W.
86 0 10
8088
87 39 36
80S4
88 59 5
8081
90 38 39
8037
Pollux
W.
43 33 6
8041
44 63 37
8037
46 21 54
8038
47 61 36
8099
Spica
E.
47 38 35
8006
46 69 31
8004
44 30 25
8003
43 1 16
8048
Antares
E.
93 18 8
8088
91 48 44
8000
90 19 15
8038
88 49 43
8096
4
Aldebaran W.
9933 1
8080
100 53 30
8080
102 33 5
8090
103 51 47
8090
Saturn
W.
97 67 46
8000
99 37 63
8000
100 68 6
9994
103 38 36
9960
Pollux
W.
66 90 31
8000
66 50 38
9996
68 30 63
9993
69 51 14
9987
ReeuluB
W.
19 31 10
8114
30 49 2
8004
33 17 19
8076
33 45 58
8061
Spica
E.
35 34 43
8080
34 6 14
8088
33 36 42
8030
31 6 7
8099
Antares
E.
81 80 35
8006
79 60 30
8000
78 20 17
9900
76 49 58
9989
5
Pollux
W.
67 34 64
9B06
68 66 3
9047
70 27 33
9040
71 68 60
9989
Ref^ulua
W.
31 13 38
9900
33 43 43
9068
34 14 10
99n
35 44 61
9907
Spica
E.
33 37 67
8080
33 833
8089
30 38 49
8084
19 9 18
8086
Antares
E.
69 16 39
9006
67 45 33
9000
66 14 7
9948
64 43 43
9986
6
Pollux
W.
79 38 44
9691
81 11 16
9681
83 43 68
9871
84 16 54
9660
Rsffulus
W.
43 31 36
3914
44 53 36
9904
46 36 60
9698
47 58 18
9689
Antares
E.
67 3 13
9604
66 30 46
9680
63 68 8
9876
62 25 19
9866
a Aquilae
E.
104 37 33
8768
103 31 46
8747
103 6 49
r37
100 49 31
8700
Sun
E.
136 30 41
8960
135 6 13
8970
133 41 31
8364
122 16 37
8301
7
Pollux
W.
93 466
9806
93 39 14
9790
95 13 48
9784
96 48 37
9771
Regulus
W.
66 44 30
9639
57 18 18
9811
68 62 33
9798
6037 3
3780
Antares
E.
44 37 66
9610
43 3 47
9609
41 29 24
3793
39 64 46
9761
a Aquile
E.
94 33 30
8637
93 5 15
8618
91 46 55
8600
90 38 31
8067
Son
E.
116 8 31
8190
113 43 10
8177
112 15 33
8168
110 48 39
8100
8
Regulus
W.
68 33 63
9718
70 0 9
9704
71 36 45
9688
78 13 41
9670
Antares
E.
31 67 46
9731
30 31 34
9710
28 45 7
3608
37 8 35
9686
a Aquilae
E.
83 63 19
8080
83 33 34
8038
81 12 43
8039
79 53 43
8010
Sun
E.
103 39 69
8063
103 131
8077
100 32 35
8047
99 3 9
8080
9
Regulus
W.
81 33 16
9006
83 3 13
9088
84 4133
3566
86 31 15
9649
Spica
W.
37 36 34
9680
39 4 31
9610
30 43 6
3SO0
33 33 9
3675
Antares
E.
19 1 4
96n
17 33 58
9681
15 44 46
3680
14 6 30
3688
a Aquils
E.
73 11 30
8000
71 61 11
8006
70 30 64
8010
69 10 41
8615
Sun
E.
91 31 46
3946
90 037
9931
88 38 47
9918
86 66 44
3806
Mars
E.
104 33 45
9669
103 69 37
9840
10136 7
9898
99 63 15
3810
30
FEBRUARY, 1855.
XIII.
GREENWICH MEAN
TIME.
LUNAR DISTANCEa
1^
Sur** Na
M
P. L.
P. L.
P. L.
P. L.
y
and
Noon.
of
lUh.
of
Vlh.
of
IXK
of
Po«itioa
Dm.
Diff
Dur.
DUE
O 1 tt
O 1 u
O 1 N
O 1 •
10
ReguluB
w.
88 130
am
89 4147
9610
9133 38
9600
93 3 53
9408
Spica
w.
34 136
a»M
35 4134
9686
37 31 57
9617
39 3 48
3400
a Aqui]«
E.
67 50 34
Sft»
66 30 35
8688
65 10 47
8646
63 51 13
8660
Sun
E.
85 34 30
aSTT
83 51 33
9860
83 18 33
aoa
80 44 49
»3B
Fomalhant E. |
35 17 41
9008
93 40 58
9080
93 3 51
9803
90 36 30
9646
Man
E.
98 18 0
aros
96 43 33
9776
95 8 33
9767
93 33 59
9780
11
Spica
W.
47 33 33
9409
49 17 3
9886
51 0 59
9860
53 45 18
9868
a Aqail0
E.
57 18 38
S0S4
56 134
8791
54 44 59
8766
53 39 30
8810
Sun
E.
73 51 5
am
71 15 9
9716
69 38 49
9006
68 3 4
9070
Fomalhant E. |
83 13 19
9B06
80 33 37
9661
78 53 34
9686
77 13 10
9691
Mars
E.
8530 0
aMo
83 53 13
9881
83 13 59
9819
80 35 31
9606
a Pegasi
E.
103 0 9
am
100 35 13
9766
98 49 47
9786
97 13 53
9716
13
Spica
W.
6133 17
9964
63 30 9
994r7
65 795
9981
6655 7
9914
a Aqai1«
E.
47 36 19
4186
46 17 40
4988
45 10 41
4416
44 534
4664
Sun
E.
59 53 33
9601
58 13 14
9674
56 33 45
9660
54 53 65
98a
68 46 33
9ifi8
67 4 10
9446
65 3141
9180
63 38 57
9497
Mara
E.
73 16 5
aeos
70 35 0
9IB0
68 53 33
9(74
67 11 43
9407
a Pegaai
E.
89 8 7
9896
87 39 48
9611
85 51 8
9607
84 13 9
9808
13
Spica
W.
75 59 95
auo
77 49 34
9196
79 39 44
9111
8130 95
9000
t
a Aqiiil«
E.
89 15 3
661S
38 35 37
6080
37 39 40
«oe
36 57 37
0780
Sun
E.
46 39 13
ano
44 47 16
9460
43 5 3
9146
41 33 33
9484
Fomalhaat E. |
55 356
9«08
53 19 36
9408
51 35 56
9iM
49 53 37
9411
Blars
E.
58 36 49
9881
56 53 47
9886
55 834
9800
53 33 43
9640
a Pegatt
E.
75 53 6
9868
74 13 39
9687
7933 3
9689
70 51 31
9619
14
Sun
E.
33 46 35
9804
31 03 51
9800
39 19 3
9860
37 35 13
9801
41 18 30
9189
39 36 43
9810
37 55 43
9040
36 15 39
9697
Mara
E.
44 35 48
9988
43 49 36
9970
41 9 51
9M7
39 16 3
9980
1 >8
a Aqail«
W.
61 17 41
89M
63 43 15
8800
64 9 17
8186
65 35 41
8177
1
Jupiter
W.
39 17 31
9908
41 5 46
9991
43 53 43
9984
44 41 19
9917
Sun
W.
34 37 46
9408
36 9 3
9600
37 50 3
9817
39 30 53
9607
a Arieiis
E.
44 14 47
99n
43 38 13
9804
40 43 19
9888
38 57 7
9800
Aldebaran
E.
74 0 31
9140
73 10 33
9187
70 31 1
9n6
68 31 56
9100
Saturn
E.
75 36 47
9199
73 36 31
9186
7146 17
9U1
69 56 86
9107
18
a Aquil0
W.
73 60 56
8148
74 18 14
8144
75 45 30
8148
77 13 49
8148
1
1
Jupiter
W.
53 34 5
9194
55 19 39
9841
57 4 39
986S
68 49 4
9876
Sun
w.
37 51 7
9609
39 30 13
9808
41 8 57
9884
43 47 19
9841
a Pegasi
w.
37 48 5
4807
38 46 33
4010
99 48 33
4880
30 64 13
4101
a Arietis
E.
30 33 43
9670
38 44 6
9897
97 5 48
9886
3639 9
9no
Aldebaran
E.
59 33 13
9181
57 46 44
9800
56 045
9U1
64 15 16
9849
Saturn
E.
6054 9
9900
59 6 56
9908
57 80 10
9186
55 83 60
9806
PoUux
E.
103 34 33
VM
101 36 49
9968
99 49 40
9880
98 866
9M0
90
a Aqailc
W.
84 36 14
8900
85 59 13
8998
87 17 53
8M1
88 48 14
MS
Jupiter
w.
67 35 34
9480
69 7 31
9480
70 48 50
9100
78 39 63
ait
Sun
w.
5053 6
9184
53 99 1
flM
54 439
tm
66 89 81
fl88
a Pegaai
w.
37 1 3
8688
38 19 57
8619
3940 8
8468
41 196
S8DS
XIV.
FEBRUARY, 1855.
31
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
y
Sur'sNune
and
PwitkMi.
Midnight.
P.L
of
Dio:
xvn.
P. L.
or
Dur.
XVlllh.
P.L.
or
Diir.
XXTh,
P.L.
of
10
Regulus W.
O 1 N
94 46 99
9IM
O 1 M
96 27 30
9449
O 1 N
98 9 55
9489
O 1 «
99 59 45
9416
Spic* W.
40 44 4
9480
42 25 45
9460
44 7 63
9449
45 50 29
9494
a Aquile E.
as 31 54
8*n
61 12 55
8608
59 54 18
8898
6836 8
8660
Sun E.
79 10 51
9806
77 36 30
9788
76 145
9760
74 26 37
9761
88 48 36
9090
87 10 11
9614
85 31 35
9600
83 52 38
9668
Mars E.
91 57 11
9799
90 21 0
9708
88 44 24
9866
87 7 24
9867
11
Spica W.
54 30 1
Stat
56 15 11
9816
58 0 48
9986
59 46 50
9981
a Aquiks E.
5S 14 33
8871
51 0 44
8886
49 48 0
4000
48 36 29
4000
Sun E.
66 24 56
9880
64 47 23
96a
63 9 26
9606
61 31 6
9606
Fomalhaat E.
75 32 26
9S07
73 5122
9408
72 9 69
9481
70 28 19
9470
Mars E.
78 56 19
9iT7
77 16 52
9660
75 37 1
9641
73 56 46
9699
a Pegasi E.
95 37 33
9808
94 0 48
9678
92 23 38
9880
9046 4
96a
12
Spica W.
68 43 12
9180
70 31 41
9164
72 20 32
9160
74 9 47
9168
a Aquils E.
43 2 29
47U
42 141
4809
41 3 20
6101
40 7 43
6887
Sun E.
53 13 39
9897
5133 3
9611
49 52 6
9407
48 10 49
9468
Fomalhaat E.
6156 I
9«99
60 12 57
9116
58 20 44
9410
56 46 23
9406
Mars E.
65 29 29
9440
63 46 51
9436
62 3 52
9410
60 20 31
9M6
a Pegasi E.
82 32 51
9flr71
80 53 16
9660
79 13 26
9660
77 33 22
9641
13
Spica W.
83 2127
9066
85 12 50
9079
87 4 32
9060
88 56 36
9oa
a Aqails E.
36 19 17
7966
35 45 25
7877
36 16 4
8649
34 61 30
ooa
Sun E.
39 39 46
9494
37 56 46
9416
36 13 34
9407
34 30 9
9400
Fomalhaat E.
48 9 8
9419
46 26 1
9496
44 43 6
9441
43 0 30
9400
.
Mars E.
51 38 41
9898
49 53 22
9817
48 7 47
9806
46 21 66
9906
a Pegasi E.
69 10 34
9618
67 29 46
9618
65 48 58
9699
64 8 16
9697
14
Sum E.
25 5124
9W1
24 7 41
9401
2224 7
9411
20 40 48
9496
Fomalhaat E.
34 36 18
9840
32 58 18
9704
31 21 34
91ttl
29 46 43
9670
Mars £.
37 29 04
9908
35 41 55
9947
33 54 37
9941
32 7 11
9987
18
aAquilu W.
67 2 23
8161
68 29 19
8168
69 56 25
8146
71 23 39
8ia
Jupiter W.
46 28 36
9989
48 15 32
xm
50 2 6
9901
51 48 18
9800
Sun W.
31 11 27
9600
32 5146
9660
34 3150
9661
36 11 39
9676
a Arietis E.
37 12 40
9806
35 29 1
9488
33 46 15
94r76
32 4 27
9690
Aldebaran E.
66 43 18
9911
64 55 7
9199
63 7 22
9917
6120 4
9964
Saturo E.
68 7 17
9189
66 18 23
9196
64 29 53
9916
62 41 48
9988
10
aAquils W.
78 39 47
8161
80 0 43
8171
81 33 27
8169
82 59 58
8104
Japiter W.
Sun W.
60 33 14
9804
62 16 58
9418
64 0 14
9483
65 43 2
oai
44 25 17
9861
46 2 49
9080
47 39 56
9006
49 16 41
9719
a Peffasi W.
a Arietis E.
32 2 55
4017
33 14 18
8679
34 27 59
8764
35 43 39
8666
23 54 5
9876
22 21 14
9000
20 60 49
om
19 23 10
898)
Aldebaran E.
52 30 18
9864
50 45 51
9886
49 155
9407
47 18 30
9480
Saturo E.
53 47 58
9894
52 2 33
9S44
50 17 37
9863
48 33 9
9868
PoUux E.
96 16 40
9M0
94 30 54
9898
92 45 35
9846
91 0 42
9864
SO
aAqoils W.
90 8 13
8979
01 32 49
8900
92 57 2
8891
94 20 49
8844
Jupiter W.
Sun W.
74 10 26
9648
75 50 32
9666
77 30 14
96ftt
79 9 31
9608
57 14 8
9813
58 48 19
9883
60 22 4
9868
61 56 22
9874
a Pegasi W.
42 23 39
8860
43 46 42
3896
45 10 26
8986
46 34 41
8970
32
FEBRUARY, 1855.
XV.
GREENWICH MEAN
TIME.
LUNAR DISTANCKa
1^
Sufa Name
P. L.
P. L.
P. L.
P. L.
«g
and
Noon.
of
HP*.
of
Vlh.
of
I».
of
^1
PMiiioa.
Diff.
Dttt
Dur.
iNor.
O 1 k
O 1 M
O 1 u
O 1 u
20
AMebaran
E.
45 35 38
94tt
43 53 17
9477
42 11 31
9800
40 30 18
9697
Saturn
E.
46 49 10
340S
45 5 39
9499
43 22 36
9448
4140 2
9484
PoUux
E.
89 16 16
3S8S
87 32 16
9401
85 48 43
9419
84 536
9440
21
a Aquils
W.
95 44 10
asas
97 7 03
8888
98 29 28
8418
99 51 24
8448
Jupiter
W.
80 48 22
9839
82 26 47
9840
84 4 47
9888
85 42 22
9870
Sun
W.
63 28 14
989S
65 0 42
99U
66 32 44
9088
68 4 22
9068
a Peeaai
AldeDarao
W.
47 69 27
aaso
49 24 37
8986
5050 5
8993
52 15 48
8918
E.
32 13 29
9087
30 36 5
9700
28 59 25
9787
27 23 34
»n6
Saturn
E.
33 14 34
9S88
31 34 57
9801
29 55 50
9014
28 17 14
9887
Pollux
E.
75 37 8
9084
73 56 42
9064
72 16 44
9674
70 37 12
9684
22
Jupiter
W.
93 43 47
9fm
95 18 52
9780
96 53 34
9807
98 27 53
9694
Sun
W.
75 36 20
8040
77 5 32
8088
78 34 22
8066
80 2 49
8104
a Petrasi
W.
59 26 24
8198
60 52 39
8187
62 18 52
8186
63 45 3
8908
a Arietis
W.
16 24 48
8898
17 39 24
8881
18 56 53
8680
20 16 44
8439
Pollux
E.
62 25 59
9084
60 48 57
9701
59 12 18
9718
57 36 1
9786
Regulnt
E.
98 51 31
9808
97 14 48
9718
95 38 27
9r780
94 227
9744
23
Sun
W.
87 19 48
8188
88 46 11
8904
90 12 15
8990
91 38 2
8986
a Pe^i
W.
70 54 33
8981
72 20 5
8980
73 45 28
8947
75 10 42
8964
a Arietia
W.
27 16 57
8188
28 43 19
8ni
30 10 3
8189
31 37 8
8140
Pollux
E.
49 40 08
9818
48 5 59
9880
46 32 10
9846
44 58 39
9880
Regulus
E.
86 7 33
9894
84 33 36
9888
82 59 57
9869
8126 36
9688
24
Sun
W.
98 42 34
8804
100 06 41
8818
101 30 34
8890
102 54 12
8840
a Pe^i
W.
82 14 25
8988
83 38 39
8808
85 2 43
8818
86 26 36
8896
a Anetis
W.
38 55 28
8111
40 23 24
8111
41 5120
8111
43 19 16
8114
Pollux
E.
37 15 27
9891
35 43 40
9088
34 12 9
9018
32 40 52
9868
Regulot
E.
73 44 14
9881
72 12 35
9049
70 41 10
9064
69 9 59
9886
25
Sun
W.
100 49 13
8109
111 11 39
8401
112 33 54
8400
113 55 59
8417
a Arietis
W.
50 38 17
8194
52 05 57
8198
53 33 33
8181
55 1 5
8188
Saturn
W.
17 42 49
8088
19 11 12
8088
20 30 86
8088
22 8 4
8060
Pollux
E.
25 750
8018
23 37 53
8038
22 8 9
8084
20 38 38
8044
Regulnt
E.
61 37 21
8014
60 7 25
8098
58 37 39
8080
57 8 3
8086
26
Sun
W.
120 44 20
8489
122 5 38
8487
123 26 50
8888
124 47 55
8488
a Arietis
W.
62 17 56
8148
63 45 10
8148
65 12 21
8161
06 39 29
8164
Saturn
W.
2930 6
8088
30 58 24
8088
32 26 40
8087
33 54 53
8080
Re^los
E.
49 42 23
8071
48 13 38
8078
46 45 2
8088
45 16 33
8068
Spica
E.
103 44 6
8081
102 15 9
8084
100 46 15
8888
99 17 25
8079
27
a Arietis
W.
73 54 38
8181
75 21 36
8181
76 48 33
8180
78 15 30
8188
Saturn
W.
41 15 25
8108
42 43 25
8108
44 11 25
8108
45 39 25
8108
Renins
E.
37 55 35
8119
36 27 40
8118
34 59 50
8190
3332 5
8196
Spusa
E.
9154 31
8087
0026 5
8088
88 57 41
8888
87 29 19
8081
28
a Arietis
w.
85 30 17
8188
86 57 16
8187
88 24 16
8180
89 51 18
8188
Satnm
W.
52 59 27
8108
54 27 31
8104
55 55 36
8108
57 23 41
8109
R^»inilus
E.
26 14 49' tiM
24 47 43
8181
23 20 47
8no
21 54 1
8180
Spica
E.
80 7 41 aooi
78 30 21
8081
77 11 0
8080
75 42 38
8888
XVI.
FEBRUARY, 1855.
33
GREENWICH MEAN TIME.
LUNAR DISTANCES.
^^
Sur'aNama 1
P. L.
P. L.
P. L.
P. L.
= 1
and
Midnight.
of
XVh.
of
xvnib.
of
XXIh.
of
^
PotiUon
Diff.
Diff.
Diff.
Diff.
20
Aldebaran E.
O 1 II
38 49 42
S664
O 1 11
37 9 43
9560
O 1 II
35 30 21
9600
O 1 II
33 51 34
9687
Saturn
E.
39 57 58
9485
38 16 23
9506
36 35 17
9596
34 54 40
9546
Pollux
E.
82 22 59
3400
80 40 50
3480
78 59 9
9500
77 17 56
9518
21
a Aquile
W.
101 12 48
S476
102 33 40
8505
103 53 59
8565
105 13 44
8566
Jupiter
W.
87 19 30
9606
88 56 10
9717
90 32 27
9786
92 8 19
3754
Sun
W.
69 35 34
997S
71 6 21
30O3
72 36 44
8011
74 6 44
8080
a Pefrasi
W.
53 41 42
sao4
55 7 46
8300
56 33 55
8197
58 0 9
8195 ;
Aldebaran
E.
25 48 35
9890
24 14 33
3605
22 41 29
9915
21 9 29
9971 j
Saturn
E.
26 39 9
9600
25 1 35
9688
23 24 32
9706
21 48 0
9780
Pollux
E.
68 58 9
9619
67 19 30
9680
65 41 15
9U6
64 3 25
9666 .
22
Jupiter
W.
100 1 50
9849
101 35 24
9557
103 8 38
9873
104 41 31
9800
Sun
W.
81 30 55
S131
82 58 39
8188
84 26 2
8155
85 53 6
8178
aPe^i
W.
65 11 9
8907
66 37 10
8313
68 3 5
8318
69 28 53
8335
a Arietis
W.
21 38 24
8850
23 1 33
8904
24 25 52
8948
25 51 4
8316
Pollux
E.
56 0 6
9753
54 24 33
9768
52 49 23
9784
51 14 35
9799
Regultts
E.
92 26 47
3701
90 51 27
9777
89 16 28
9793
87 41 50
3806
23
Sun
W.
93 3 30
8350
94 28 40
8904
95 53 34
8978
97 18 12
8991
a Pe^Qsi
W.
76 35 47
8363
78 0 42
8371
79 25 27
8381
80 50 1
8980
a Arietis
W.
33 4 31
8139
34 32 6
8133
35 59 47
8119
37 27 34
8118
Pollux
E.
43 25 27
9873
41 52 33
3885
40 19 55
9808
38 47 32
9911
Regulu*
E.
79 53 34
9878
78 20 50
3808
76 48 22
9905
75 16 10
3019
24
Sun
W.
104 17 37
8861
105 40 48
8803
107 03 48
8873
108 26 36
8863
a Pegasi
W.
87 50 17
8886
89 13 47
8845
90 37 6
8854
92 0 15
8868
a Arietis
W.
44 47 9
8116
46 14 59
8117
47 42 47
8119
49 10 33
8139
Pollux
E.
31 9 49
9070
29 38 59
9061
28 8 23
9999
26 38 0
8003
ReguluB
E.
67 39 2
9075
66 8 19
9065
64 37 48
9005
63 7 29
8004
25
Sun
W.
115 17 56
8495
116 39 44
8489
118 124
8480
119 22 55
8446
a Arietis
W.
56 28 34
8187
57 55 59
8180
59 23 21
8143
60 50 40
8144
Saturn
W.
23 36 31
8087
25 4 57
8087
26 33 22
8069
28 1 45
8001
Pollux
E.
19 9 19
8055
17 40 14
8005
16 1121
8070
14 42 42
8067
Regulos
E.
55 38 38
8040
54 9 22 8059
52 40 15
8050
51 11 15
8005
26
Sun
W.
126 8 55
8473
127 29 49
8477
128 50 39
8480
130 11 25
8484
a Arietis
W.
68 6 31
8155
69 33 37
8150
71 0 38
8150
72 27 39
8150
Saturn
W.
35 23 4
i\02
36 51 11
8104
38 19 17
8104
39 47 22
8105
Regulus
E.
43 48 10
8004
42 19 53
8008
40 51 42
8108
39 23 36
8107
Spica
E.
97 48 44
8077
96 20 3
8070
94 51 30
8063
93 23 0
8084
27
a Arietis
W.
79 42 27
8100
81 9 23
8100
82 36 20
8159
84 3 18
8166
Saturn
W.
47 7 24
8100
48 35 23
8108
50 3 23
8107
51 31 24
8105
Regulus
E.
32 4 26
8130
30 36 52
8184
29 9 25
8189
27 42 03
8140
Spica
E.
86 0 59
8001
84 32 39
8091
83 4 19
8003
81 36 0
8003
28
a Arietis
W.
91 18 22
8158
92 45 27
8151
94 12 35
8149
95 39 45
8148
Saturn
W.
58 5149
8109
60 19 56
8101
61 40 5
8090
63 16 20
8067
Regulus
E.
20 27 28
8104
19 1 11
8910
17 35 15
8383
16 9 45
8303
Spica
E.
74 14 16
8087
72 45 51
8066
71 17 24
8063
69 48 54
8069
34
MARCH, 1855.
I.
AT GREENWICH APPARENT NOON.
t
I
O
Thur.
Fri.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
(Fri.
Sat.
Sun.
MoQ.
Tues.
Wed.
Thur.
Fri.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
Sun.
THE SUN'S
Apparent
Right/
22 47 35.34
22 51 19.76
22 55 3.66
22 58 47.08
23 2 30.05
23 6 12.58
23 9 54.71
23 13 36.46
23 17 17.83
23 20 58.88
23 24 39.60
23 28 19.99
23 32 0.10
23 35 39.95
23 39 19.54
23 42 58.90
23 46 38.06
23 50 17.02
23 53 55.79
23 57 34,41
0 1 12.87
0 4 51.21
a 8 29.42
0 12 7.55
0 15 45.61
0 19 23.62
0 23 1.59
0 26 39.54
0 30 17.52
0 33 55.52
0 37 33.58
Dlff. for
1 hour.
9.362
9.342
9.322
9.303
9.284
9.266
9.250
9.284
9.220
9.206
9.193
9.181
9.169
9.158
9.148
9.188
9.129
9.121
9.118
9.106
9.100
9.094
9.090
9.087
9.084
9.082
9.082
9.083
9.084
9.086
9.090
Apparent
DecliDation.
s.
7 40 46.9
7 17 58.3
6 55 3.6
6 32 3.3
6 8 57.5
5 45 46.6
5 22 31.0
4 59 11.1
4 35 47.3
4 12 19.7
3 48 48.9
3 25 15.2
3 1 39.0
2 38 0.7
2 14 20.7
•1 50 39.4
1 26 57.1
1 3 14.2
Dur.
for
Ihour.
56.89
57.15
57.40
57.63
57.86
58.06
58.26
58.44
58.60
58.74
58.86
58.97
59.07
59.15
59.20
59.24
59.27
59.29
Semi-
0 39 31.1 59.29
0 15 48.2,59.28
0 7 54.1 59.26
0 31 35.3!59.23
0 55 15.2
1 18 53.3
1 42 29.3
2 6 2.8
2 29 33.4
2 53 0.9
3 16 24.8
3 39 44.8
4 3 0.6
59.17
59.08
58.97
58.84
58.71
58.57
58.42
58.26
58.09
0 41 11.721 9.095|n. 4 26 11.9[57.90 16 2.10 64.46 4 3.86 0.761
16 10.39
16 10.15
16 9.90
16 9.65
16 9.40
16 9.15
16 8.89
16 8.(
16 8.37
16 8.10
16 7.83
16 7.56
16 7.29
16 7.02
16 6.75
16 6.47
16 6.19
16 5.92
16 5.65
16 5.37
16 5.10
16 4.83
16 4.56
16 4.29
16 4.01
16 3.74
16 3.47
16 3.20
16 2.93
16 2.65
16 2.38
sidereal
Hme
of the
Semidi-
ameter
paasing
the
Merid-
65.41
65.34
65.27
65.20
65.13
65.07
65.01
64.95
64.90
64.85
64.80
64.75
64.71
64.67
64.63
64.60
64.57
64.54
64.51
64.49
64.47
64.46
64.45
64.44
64.43
64.42
64.42
64.42
64.43
64.44
64.45
Etiuatkmof
Time,
to be
added to
^9sr
12 39.21
12 27.11
12 14.50
12 1.41
11 47.86
11 33.87
DifC
for
ihour.
19.49
4.73
49.60
10 34.12
10 18.33
10 2.23
9 45.83
9 29.16
9 12.25
8 55.11
8 37.75
8 20.20
0.494
0.515
0.535
0.565
0.678
0.591
0.607
0.623
0.637
0.661
0.664
0.676
2.47
44.58
0.698
0.706
0.718
0.727
0.785
0748
0.760
7 26.54 0.766
7 8.36
6 50.08
6 31.72
0.762
0.766
0.769
6 13.28 0.772
5 54.78 0.774
5 36.25 0.774
5 17.71
4 59.17
4 40.66
4 22.23
0.778
0.772
0.770
0.766
NoTB. — Mean Time of the Semidlameter paselng may be found by subtraalng Ob. 18 fipom the Sidereal Time.
II.
MARCH, 1855.
35
GREENWICH MEAN TIME.
THE
MOON'S
SemidiainBttf.
Horiionul Parallaz.
Meridian Ptange.
Age.
Noon.
Midnight.
Noon-
Dltr. for
Ihour.
Midnight.
Dltr. for
1 hour.
Diff for
i hour.
1
2
3
l4 46.6
14 47.6
14 61.2
14 46.4
14 49.2
14 53.5
54 3.3
54 11.0
54 24.0
-1-0.19
0.48
0.64
54 8.4
54 16.9
54 32.3
-H).82
0.54
0.74
h. m.
10 56 6
11 40.6
12 23.0
m.
1.88
1.78
1.72
d.
12.7
13.7
14.7
4
5
6
14 56.1
15 1.9
15 8.8
14 58.9
15 5.2
15 12.6
54 41.7
55 3.1
55 28.0
0.82
0.96
1.11
54 52.0
55 15.1
55 41.7
0.89
1.04
1.17
13 4.2
13 45.2
14 27.1
1.71
1.72
1.78
15.7
16.7
17.7
7
8
9
15 16.5
15 25.1
15 34.6
15 20.7
15 29.7
15 39.8
55 56.3
56 28.1
57 3.3
1.26
1.39
1.58
56 11.8
56 45.3
57 22.0
1.82
1.46
1.58
15 10.8
15 57.5
16 48.3
1.88
2.03
2.21
18.7
19.7
20.7
10
11
12
15 45.1
15 56.2
16 7.3
15 50.6
16 1.8
16 12.6
57 41.4
58 21.7
59 2.4
1.68
1.70
1.65
58 1.4
58 42.2
59 22.0
1.68
1.69
1.58
17 43.6
18 43.1
19 45.3
2.89
2.68
2.60
21.7
22.7
23.7
13
14
15
16 17.7
16 26.3
16 32.1
16 22.3
16 29.6
16 33.7
59 40.5
60 12.1
60 33.3
1.47
1.12
H-0.62
59 57.4
60 24.2
60 39.0
1.81
0.89
-H).82
20 47.8
21 48.4
22 45.6
2.56
2.45
2.81
24.7
25.7
^.7
16
17
18
16 34.2
16 31.8
16 25.1
16 33.6
16 29.0
16 20.3
60 40.9
60 32.1
60 7.6
—0.01
0.70
1.81
60 38.7
60 21.7
59 50.2
—0.86
1.02
1.57
23 39.3
6
0 30.0
2.17
2.08
27.7
28.7
0.3
19
20
21
16 14.7
16 1.7
15 47.3
16 8.5
15 54.6
15 40.2
59 29.8
58 41.9
57 49.5
1.80
2.12
2.21
59 6.8
58 16.0
57 22.9
1.98
2.18
2.20
1 19.4
2 8.2
2 57.5
2.04
2.04
2.07
1.3
2.3
3.3
22
23
24
15 38.0
15 19.5
15 7.9
15 26.1
15 13.4
16 2.9
56 56.7
56 7.5
55 24.7
2.14
1.94
1.61
56 31.5
55 45.1
55 6.5
2.05
1.79
1.41
3 47.9
4 39.5
5 32.0
2.12
4 2.16
2.18
4.3
5.3
6.3
25
26
27
14 58.6
14 52.1
14 48.3
14 55.0
14 49.9
14 47.4
54 50.9
54 27.2
54 13.4
1.20
0.78
—0.88
54 37.8
54 19.1
54 10.0
0.99
0.58
—0.18
6 24.4
7 15.8
8 5.2
2.16
2.10
2.01
7.3
8.3
9.3
28
-29
30
31
14 47.1
14 48.4
14 51.8
14 5^.9
14 47.5
14 49.8
14 54.2
15 0.0
54 8.9
54 13.5
54 25.9
54 44.7
4^.01
0.36
0.65
0.88
54 10.2
54 18.8
54 34.6
54 55.9
4-0.19
0.51
0.78
0.97
8 52.4
9 37.3
10 20.1
11 1.7
1.92
182
1.76
1.72
10.3
11.3
12.3
13.3
32
15 3.4
15 7.0
55 8.2
-hi. 06
55 21.2
-f-1.14
11 43.0
1.73
14.3
1
36
MARCH, 1855.
III.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right AjceoaloiL
Diff
fori m.
Declination.
Diffl
forlm.
Hour.
DIff
forlm.
DocUnatloo.
Dio:
forlm.
THU
RSDA
Y 1.
SATURDAY 8.
km.*.
•.
O i II
u
h. m. ■.
■.
O 1 N
II 1
1 0
9 11 12.46
3.0377
\ 21 31 02.7
8.703
0
10 44 37.91
1.W88
N 19 59 37.7
13403
1 1
9 13 14.01
30)340
21 22 17.8
8.706
1
10 46 30.39
1.8736
19 47 18.0
13J07
2
9 15 15.34
30>3M
21 13 27.3
8.888
2
10 48 22.73
1.8713
19 34 55.0
18.413
1 3
9 17 16.46
34)168
21 4 31.3
8.980
3
10 50 14.93
1.8089
19 22 28.7
13.407
1 4
9 19 17.36
ojnm
20 55 29.8
94)71
4
10 52 7.00
1.8807
19 9 59.2
13.630
5
9 21 18.04
3.00M
20 46 22.8
9.103
5
10 53 58.93
1.8046
1157 26.5
13.073
6
9 23 18.50
3U)036
20 37 10.4
9.3fi3
6
10 55 50.73
1.8036
1144 50.7
13433
7
9 25 18.74
34)031
20 27 52.7
9.340
7
10 57 42.41
1.8606
1132 11.8
13.073
8
9 27 18.76
lS9Bi
20 18 29.6
9.438
8
10 59 33.97
1.8566
1119 30.0
19.733
9
9 29 18.56
IM49
20 9 1.3
9.616
9
11 1 25.41
1.8686
11 6 45.3
13.773
iO
9 31 18.15
1.9913
19 59 27.8
9.002
10
11 3 16.73
1.8640
10 53 57.6
13430 ,
^1
9 33 17.53
1.9878
19 49 49.1
9.688
11
11 5 7.95
1.8038
10 41 6.9
13407
1 19
9 35 16.70
1.9843
19 40 5.2
9.774
19
11 0 59.06
1.8610
10 28 13.5
13418
13
9 37 15.66
1.9808
19 30 16.2
9JMS
13
11 8 50.07
1.8493
10 15 17.4
13460
14
9 39 14.41
ijrm
19 20 22.3
9.»tl
14
11 10 40.97
1.8470
10 9 18.6
13406
15
9 41 12.95
1.9738
19 10 23.4
104)33
15
11 12 31.77
1.8460
9 49 17.0
18449
16
9 43 11.27
i^arm
19 0 19.6
10.106
16
11 14 22.47
1.8443
9 36 19.8
18488
17
9 45 9.39
1.9070
18 50 10.9
10.186
17
11 16 13.08
14498
9 23 6.0
13.130
18
9 47 7.31
1.98S7
18 39 57.4
10.306
18
11 18 3.60
1.8414
9 9 56.7
13.177
19
9 49 5.03
1.9003
18 29 39.1
10.346
19
11 19 54.03
1.8400
8 56 44.9
13.317
30
9 51 2.54
1.9569
18 19 16.1
10.434
20
11 91 44.38
14386
8 43 30.7
13.367 1
21
9 52 59.85
lM3i
18 8 48.4
10.603
21
11 93 34.65
1-8173
8 30 14.1
13497 '
22
9 54 56.96
1.9602
17 58 16.0
10.579
22
11 25 24.84
14M0
8 16 55.2
13436 ;
S3
9 56 53.87
1.9408
N 17 47 39.0
10.006
23
11 97 14.95
1'0M7
N. 8 3 34.0
13478 1
FF
IIDAY
2.
SI]
fNDA^
i
0
9 58 50.58
1.91SA
N 17 36 57.4 W.7S1
0
11 99 4.99
i.an6
N. 7 60 10.5
13.410
1
10 0 47.10
1.9103
17 26 11.3
10.806
1
11 30 54.97
14336
7 .36 44.9
13U47
2
10 2 43.42
1.9373
17 15 20.8
10.878
2
11 39 44.88
14816
7 93 17.1
13.483
3
10 4 39.55
1.9840
17 4 25.8
10.961
3
11 34 34.73
14M0
7 9 47.3
134U j
4
10 6 35.50
1.9308
16 53 26.5
imKtt
4
11 36 94.54
i4ar
6 56 15.4
13.648
5
10 8 31.26
i4wn
16 42 22.8
114)97
5
11 38 14.30
14388
6 49 41.5
13.683
6
10 10 26.83
I^i47
16 31 14.9
11.108
6
11 40 4.00
14980
6 99 5.6
13414
7
10 12 22.22
1.9317
16 20 2.8
11.338
7
11 41 53.66
14373
6 15 27.8
13446
8
10 14 17.43
1.9187
16 8 46.5
11.307
8
11 43 43.28
14907
6 148.2
13476
9
10 16 12.45
1.9107
15 57 26.0
11.376
9
11 45 32.86
1-8301
5 48 6.8
13.700 !
10
10 18 7.30
1.9137
15 46 1.5
11.443
10
11 47 22.41
14966
5 34 93.7
13.733
11
10 20 1.98
1.9098
15 34 33.0
11.600
11
11 49 11.93
14361
5 90 38.8
13.701 1
12
10 21 56.48
1.9000
15 23 0.5
11.676
12
11 51 1.42
14347
5 6 52.3
13.788 1
13
10 23 50.81
1.9043
15 1124.0
11.610
13
11 52 50.89
I49tt
4 53 4.2
13410
14
10 25 44.98
1.9016
14 59 43.6
11.704
14
11 54 40.33
14910
4 39 14.5
13440
! 15
10 27 38.98
1«87
14 47 59.4
11.708
15
11 56 29.75
14330
4 95 93.4
13406
1 *^
10 29 32.82
1.8960
14 36 11.4
11.831
16
11 58 19.15
14333
4 1130.9
13409
! 17
10 31 26.49
1.8033
14 24 19.8
11.893
17
12 0 8.54
14389
3 57 36.9 13413
18
10 33 20.00
1.8900
14 12 24.5
11.963
18
19 1 57.93
14331
3 43 41.4| 13434
19
10 35 13.36
1.8880
14 0 25.5
134)13
19
19 3 47.31
143W
3 99 44.7 13466
20
10 37 6.57
1.8»M
13 48 22.9
114)73
90
19 5 36.69
14S1
3 15 46.8, 13473
21
10 38 59.63
1.9830
13 36 16.7
13.133
91
19 7 96.08
14133
3 1 47.6' 13486
22
10 40 52.53
1.8W6
13 24 7.1
13.190
22
19 9 15.48
14330
9 47 47.3 14414
93
10 42 45.29
l.«7iH
13 1154.1
13.347
23
19 11 4.90
14eB8
9 33 46.0 I44IS
. 24
10 44 37.91
|.«7aH
S 12 59 37.7
i3.an
94
19 19 54.34
14943
S. S 10 43.6; 144» '
^,
IV.
MARCH, 1855.
37
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION. 1
Hour.
Riffbt AacenaioD.
Did:
JbrliiL
DeclinaUoa.
Diff.
(brim.
Hour.
Diff.
fbrlm.
DecUoAtioo.
Diir.
forlm.
MOl
»4DAY
5.
WEDNESDAY 7.
h. m. •.
s.
O 1 «
ti
h. m. 1.
•.
O 1 M
II
0
12 12 54.34
18-J42
N. 2 19 43.6
14349
0
13 42 7.66
1>305
a 8 57 42.7
13 837
1
12 14 43.81
13J47
2 05 40.3
14365
1
13 44 3.00
13313
9 1131.5
13.796
2
12 16 33.30
ism
1 51 35.8
14.060
2
13 45 58.57
13980
9 25 18.6
13.768
3
12 18 22.82
13357
1 37 30.6
14395
3
13 47 54.36
13818
9 39 3.7
13.738
4
12 20 12.37
1.8»i
1 23 24.6
14.106
4
13 49 50.38
13857
9 52 47.1
13.707
5
12 22 1.95
135168
1 09 17.7
14.131
5
13 51 46.65
13398
10 6 28.5
13375
6
12 23 51.58
1.8275
0 55 10.1
14.133
6
13 53 43.17
13440
10 20 8.0
18349
7
12 25 41.26
13363
0 41 1.9
14.143
7
13 55 39.94
13483
10 33 45.5
13307
8
12 27 30.99
13393
0 26 53.0
14.153
8
13 57 36.96
13935
10 47 20.8
13370
9
12 29 20.77
13303
N. 0 12 43.4
14.163
9
13 59 34.23
1.9568
11 0 53.9
1333S
10
12 31 10.61
13313
& 0 1 26.7
14.173
10
14 1 31.76
1.9611
1114 24.7
13.495
11
12 33 0.51
13333
0 15 37.2
14.180
11
14 3 29.56
13655
1127 53.2
13.457
12
12 34 50.47
13333
0 29 48.2
14.187
12
14 5 27.63
13700
1141 19.4
18.417
13
12 36 40.50
13345
0 43 59.7
14.103
13
14 7 25.97
1.0746
11 54 43.2
13375
14
12 38 30.60
18357
0 58 11.5
14.196
14
14 9 24.59
13793
12 8 4.4
13338
15
12 40 20.78
13370
1 12 23.5
14.303
15
14 11 23.50
1384U
12 2123.1
13.390
16
12 42 11.04
13384
1 26 35.7
11.305
16
14 13 22.69
1.9868
12 34 39.2
13.945
17
12 44 1.39
1.8308
140 48.1
14.308
17
14 15 22.17
1.9987
12 47 52.5
13.300
18
12 45 51.83
1.8113
155 0.6
14.310
18
14 17 21.94
1.9987
13 1 3.1
13.158
19
12 47 42.36
13480
2 0 13.2
14.310
19
14 19 22.01
9-0037
13 14 10.9
13.105
20
12 49 32.98
13447
2 23 25.8
14.310
20
14 21 22.39
33088
13 27 16.7
13356
21
12 51 23.71
13405
2 37 38.5
14.310
21
14 23 23.08
93140
13 40 17.5
18306
22
12 53 14.54
13483
2 5151.1
14.906
22
14 25 24.08
3K)193
13 53 16.3
13.943
23
12 55 05.48
13S01
S. 3 6 3.5
14.305
23
14 27 25.39
3.0345
S.14 6 12.0
13300
TUE
:SDA^
' 6.
THU
RSDA
T 8.
0
12 56 56.54
13931
s. 3 20 15.6
14.903
0
14 29 27.01
33398
S14 19 4.5
19347
1
12 58 47.73
13541
3 34 27.5
14.197
1
14 31 28.96
03353
14 31 53.7
13.793
2
13 0 39.04
13581
3 48 39.1
14.193
2
14 33 31.25
33406
14 44 39.6
13.735
3
13 2 30.47
13683
4 2 50.4
14.185
3
14 35 33.87
9.0464
14 57 22.0
133n
4
13 4 22.03
13607
4 17 1.3
14.177
4
14 37 36.83
93530
15 10 0.9
13318
5
13 6 13.73
13830
4 31 11.7
14.168
5
14 39 40.13
935n
15 22 36.3
13.559
6
13 8 5.57
13653
4 45 21.5
14.150
6
14 41 43.77
33635
15 35 8.1
13.498
7
13 9 57.56
I38n
4 59 30.7
14.149
7
14 43 47.75
33603
15 47 36.1
13.435
8
13 11 49.70
18708
5 13 39.2
14.137
8
14 45 52.08
33753
16 0 0.3
13370
9
13 13 41.99
13739
6 27 47.1
14.135
9
14 47 56.77
30613
16 12 20.6
13304
10
13 15 34.44
13756
5 4154.3
14.113
10
14 50 1.83
33873
16 24 37.0
13.337
11
13 17 27.05
13783
5 56 0.7
14.100
11
14 62 7.25
93933
16 36 49.3
13.168
12
13 19 19.83
13810
6 10 6.2
14385
12
14 54 13.02
93003
16 48 57.3
13398
13
13 21 12.78
13640
6 24 10.8
14366
13
14 56 19.16
9.1053
17 1 1.1
13338
14
13 23 6.90
13870
6 38 14.4
14350
14
14 58 25.68
9.1115
17 13 0.6
11357
15
13 24 59.19
18000
6 52 17.0
14333
15
15 0 32.57
9.1178
17 24 55.9
11384
16
13 26 52.67
13060
7 6 18.4
14313
16
15 2 39.83
9.1341
17 36 46.8
11308
17
13 28 46.34
13061
7 20 18.6
13394
17
15 4 47.47
9.1305
17 48 33.1
11.783
18
13 30 40.21
13004
7 34 17.6
13373
18
15 6 55.50
9.1369
18 0 14.7
11356
19
13 32 34.28
1.9037
7 48 15.4
13351
19
15 9 3.92
9.1433
18 1151.6
i\jm
20
13 34 28.54
13061
8 2 11.8
13.939
20
15 11 12.73
9.1496
18 23 23.8
11.497
21
13 36 23.01
13095
8 16 6.8
13905
21
15 13 21.92
9.1506
18 34 51.2
11.415
22
13 38 17.68
1.9130
8 30 0.3
13380
22
15 15 31.50
9*1633
18 46 13.7
11333
23
13 40 12.56
1.9167
8 43 52.3
13.854
23
15 17 41.49
9.1698
18 57 31.2
11.348
24
13 42 7.66
13305
& 8 57 42.7
13337
24
15 19 61.88
3.1765
&19 8 43.6
11.163
38
MARCH, 1855.
V.
GREENWICH
MEAN TIME,
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AacMfloQ.
Diff:
forlm.
Oeclinatioa.
Diff.
fori in.
Hour.
Right Awension.
Diff.
fori m.
Declinalion.
Diff
for I m.
FR
IDAY
9.
SUNDAY
11.
h. m. •.
■.
• 1 N
N
h- m. s.
•.
O 1 u
ft
0
15 19 51.88
a.i7«5
S.19 8 43.6
11.163
0
17 12 27.97
2.6116
S 25 67 39.8
6408
1 1
15 22 2.69
3.l83*i
19 19 50.8
ujms
1
17 14 58.86
9.6178
26 2 53.3
6.146
2
15 24 13.90
9.1900
19 30 52.6
10.9B6
2
17 17 30.11
9.6288
26 7 57.3
4466
3
15 26 25.52
2.1968
19 4149.0
104196
3
17 20 1.72
9.6298
26 12 51.6
4424
1 4
15 28 37.55
a.«a8
19 52 40.0
10.804
4
17 22 33.69
9.6367
26 17 36.2
4469
5
15 30 50.00
9.9106
20 3 25.6
10.712
6
17 25 6.01
^6416
26 22 11.0
4.490
6
15 33 2.86
9.9177
20 14 5.5
10.617
6
17 27 38.68
9.M78
26 26 36.1
4486
7
15 35 16.14
9.9947
20 24 39.7
10.691
7
17 30 11.69
9.6680
26 30 61.4
4.171
8
15 37 29.84
9.9318
20 35 8.2
10.496
8
17 32 45.04
9.6686
26 34 56.7
4408
1 »
15 39 43.96
9.9S86
20 45 30.8
10.896
9
17 35 18.73
9.6641
26 38 51.8
8438
10
15 41 58.50
9.9448
20 55 47.3
10.996
10
17 37 52.74
9.6606
26 42 36.7
8488
11
15 44 13.47
9.9M8
21 5 57.7
10.193
11
17 40 27.07
9.9747
26 46 11.5
3.408
12
15 46 28.86
9.9fi00
21 16 2.1
10.090
12
17 43 1.71
9.6707
26 49 36.0
8429
13
15 48 44.68
9.9871
2126 0.3
9.916
13
17 45 36.65
9.6647
26 52 60.2
8.160
14
15 51 0.93
9.T741
21 35 52.1
9.808
14
17 48 11.89
9.4697
86 55 64.0
9477
15
15 53 17.61
9-9816
21 45 37.5
9.701
15
17 50 47.42
9.6046
26 68 47.3
9402
, 16
15 55 34.72
9*9887
21 55 16.3
9.603
16
17 53 23.24
9.6092
27 130.1
9496
17
15 57 52.26
99960
22 4 48.5
9.481
17
17 55 59.34
9.6037
27 4 2.3
9.447
IH
16 0 10.23
9-SOSI
22 14 14.0
9.868
18
17 58 35.70
9.6081
27 6 23.8
9.970
19
16 2 28.64
9-9103
22 23 32.8
9.966
19
18 1 12.31
9.6193
27 8 34.7
2402
20
16 4 47.48
9-8176
22 32 44.7
9.140
20
18 3 49.18
9.6166
27 10 34.7
1412
21
16 7 6.76
9-S948
22 41 49.7
9Jm
21
18 6 86.31
9.6206
27 12 24.0
1.789
22
16 9 26.47
9.S390
22 50 47.6
8.90->
22
18 9 3.67
9.6946
27 14 2.4
1.660
23
16 11 46.62
SATl
9.saot
JRDA^
&22 59 38.3
f 10.
8.784
23
18 11 41.26
MO]
941983
VDAY
S.27 16 29.9
12.
1468
0
16 14 7.20
94165
s23 8 21.7
6.688
0
18 14 19.06
9.6317
S27 16 46.6
1.186
1
16 16 28.22
9.35S7
23 16 57.8
8.640
1
18 16 67.07
9.6861
27 17 62.3
1.003
2
16 18 49.67
9.3608
23 25 26.5
8U16
2
18 19 35.28
9.6386
87 18 46.9
0.817
3
16 21 11.55
9.3680
23 33 47.7
8.990
3
18 22 13.69
9.A417
27 19 30.3
0.680
4
16 23 33.85
ijriM
23 42 1.3
8.163
4
18 24 52.28
9.6447
27 20 2.5
0.443 1
5
16 85 56.58
9.38-a
23 50 7.3
BJM
5
18 27 31.05
9.8r76
27 20 23.5
0.267
6
16 28 19.75
9J806
23 58 6.5
7.906
6
18 30 9.98
9.8602
27 20 33.3
0471
7
16 30 43.35
9J067
24 6 55.8
7.779
7
18 32 49.06
9.6697
27 20 31.9
0.116 :
8
16 33 7.37
9.4087
24 13 38.2
7488
8
18 35 28.29
9.8660
27 80 19.2
0406 ,
9
16 35 31.81
9.410:
24 21 12.6
7.M8
9
18 38 7.67
9.6673
27 19 56.1
0.496
10
16 37 56.68
9 4178
24 28 38.7
7.868
10
18 40 47.18
9.6608
87 19 10.6
0.886;
11
16 40 21.98
9.4940
24 35 56.5
7.998
11
18 43 26.81
9^18
87 18 32.8
0.876
12
16 42 47.70
9.43J0
24 43 6.1
74180
18
18 46 6.M
94681
27 17 34.6
1465
13
16 45 13.84
9.4380
24 50 7.3
6.M0
13
18 48 46.37
94847
27 16 25.0
1.266
14
16 47 40.38
9.44*7
24 67 0.0
8.801
14
18 61 86.30
94880
87 16 3.9
1.446
15
16 50 7.33
9.461^
25 3 44.0
8.889
16
18 64 6.31
94672
87 13 31.4
1435
16
16 52 34.69
9.46ftl
25 10 19.4
8.617
16
18 66 46.39
94883
87 11 47.5
1427
17
16 55 2.46
9.4660
85 16 46.0
8.870
17
18 69 86.53
94803
87 9 62.1
94» i
18
16 57 30.64
9-1797
25 23 3.8
8.998
18
19 8 6.72
94709
87 7 45.1
9.913 1
19
16 59 59.21
9.4791
25 29 12.7
8473
19
19 4 46.96
94708
87 5 86.6
9406
20
17 2 28.1H
9.4860
25 35 12.6
6.999
20
19 7 27.23
94712
87 8 66.5
9407
21
17 4 67.55
94»26
25 41 3.3
5.78B
21
19 10 7.62
94714
87 0 14.9
9.789'
1 2^
17 7 27.31
9.4080
25 46 44.7
K614
22
19 12 47.81
94716
86 57 21.7
9481 ;
23
17 9 57.45
9.4063
85 62 16.9
6.460
23
19 15 28.10
94716
86 54 17.0
8.179 1
24
17 12 27.97
9.6116
s 25 67 39.8
6.808
24
10 18 8.40
94716
S86 61 1.0
8489 ,
VI.
MARCH, 1855.
39
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
1
Right A«c«n«ion.
Diff
fori m.
Declination.
Diff.
fori m.
Hour.
Right Ascenaion.
Diff.
forlm.
Declination.
Dinr.
forlm.
TUE
SDAY
13.
THURSDAY 15.
h. m. «.
a.
1 0 1 M
H
h. m. s.
8.
O 1 ft
0
19 18 8.40
9.ff7lA
's26 51 1.0
8.009
0
21 23 31.36
9.6109
s 20 40 45.8
ii.6&e
1
19 20 48.68
9.97 l*i
26 47 33.5
8.669
1
21 26 1.86
9.6066
20 29 2.0
11.796
2
19 23 28.93
3.0706
' 26 43 54.6
8.743
2
21 28 32.03
9.5009
20 17 9.9
11.988
3
19 26 9.14
9.0809
26 40 4.2
3.084
3
21 31 1.88
9.4947
20 5 9.4
19.076
4
19 28 49.31
9.0009
26 36 2.4
4.196
4
21 33 31.40
9.4099
19 53 0.7
19.919
5
19 31 29.43
9.00B3
26 31 49.2
4.SI4
5
21 36 0.59
9.4887
19 40 43.9
19.345
6
19 34 9.50
94»73
26 27 24.7
4.808
6
21 38 29.45
9.4781
19 28 19.2
19.476
7
19 36 49.51
9.6600
26 22 48.9
4.099
7
21 40 57.97
9.4795
19 15 46.6
19.006
8
19 39 29.43
9 6645
26 18 1.8
4.881
8
21 43 26.15
9.4668
19 3 6.3
19.733
9
19 42 9.25
9.0699
26 13 3.3
6.070
9
21 45 54.00
9.4619
18 50 18.5
19.899
10
19 44 48.97
9.0619
26 7 53.4
6.966
10
21 48 21.52
9.4666
18 37 23.2
19.984
11
19 47 28.58
9.6003
26 2 32.3
6.416
11
21 50 48.70
9U600
18 24 20.5
18.107
13
19 50 8.08
9.6078
25 57 0.0
6.039
12
21 53 15.54
9.4444
18 11 10.5
18*997
13
19 52 47.46
iMsa
25 51 16.4
6.890
13
21 55 42.04
9.4388
17 57 53.2
U.346
14
19 55 26.70
9.6098
25 45 21.6
04W7
14
21 58 8.21
9.4389
17 44 28.9
18.460
15
19 58 5.80
9.6908
25 39 15.7
6.199
15
22 0 34.04
9.4976
17 30 57.8
13.673
16
20 0 44.74
Mm
25 32 58.6
6.»n
16
22 2 59.54
9.4990
17 17 20.0
18.686
17
20 3 23.53
9.0109
25 26 30.5
6.560
17
22 5 24.71
9.4165
17 3 35.4
13.798
18
20 6 2.16
9.««95
25 19 51.5
6.741
18
22 7 49.54
9.4109
16 49 44.1
18.907
19
20 8 40.62
9.6895
25 13 1.6
6.999
10
22 10 14.04
9.4063
16 35 46.4
14.013
20
20 11 18.90
9.0S63
25 6 0.9
7.109
20
22 12 38.21
9.399B
16 21 42.4
14.117
21
20 13 56.98
9.6331
24 58 49.3
7.998
21
22 15 2.04
9.3043
16 7 32.3
14.919
22
20 16 34.86
9.6907
24 51 26.9
7.464
22
22 17 25.54
9.3888
15 53 16.1
14.390 '
23
20 19 12.54
9.0363
S 24 43 53.7
7.649
23
28 19 48.71
9U»33
s.15 38 53.8
14.490 1
WED^
lESDA
lY 14.
FR
IDAY
II
0
20 21 50.01
9.0998
S.24 38 9.9
7.817
0
22 22 11.55
9.3778
s.15 24 25.6
14JH7
1
20 24 27.27
9.6191
24 28 15.6
7.909
1
22 24 34.07
9.3796
15 9 51.6
14.619
2
20 27 4.30
9.6159
24 20 10.8
8.107
2
22 26 56.27
9.3679
14 55 12.0
14.706
3
20 29 41.10
9^1119
24 1155.5
8.S41
3
22 29 18.14
9.8618
14 40 27.0
14796
4
20 32 17.67
9.60T9
24 3 29.9
8.618
4
22 31 39.70
9.3566
14 25 36.6
14.883
5
20 34 53.99
9.6089
23 54 54.0
8.683
5
22 34 0.94
9.3519
14 10 40.9
14.970
6
20 37 30.06
9.0091
23 46 7.9
8.863
6
22 36 21.86
9.S490
13 55 40.1
164)65
7
20 40 5.88
9.6948
23 37 11.6
0.099
7
22 38 42.46
9.S407
13 40 34.2
16.187
8
20 42 41.44
9.9905
23 28 5.2
0.100
8
22 41 2.76
9.3357
13 25 23.4
16.919
9
20 45 16.73
9.6860
23 18 48.8
0.866
9
22 43 22.76
9.3306
13 10 7.7
16.999
10
20 47 51.75
9.9614
23 9 22.5
9.690
10
22 45 42.45
9.8965
12 54 47 3
16.375
11
20 50 26.50
9.0769
22 59 46.4
9.699
11
22 48 1.83
9.8904
12 39 22.5
16.448 1
12
20 53 0.97
9.9799
22 50 0.6
9.843
12
22 50 20.91
9.3163
12 23 53.4
15.519
13
20 55 35.16
9.5674
22 40 5 3
10.0C3
13
22 52 39.69
9.3103
12 8 19.9
16.500
14
20 58 9.07
9.6635
22 30 0.4
10.169
14
22 54 58.17
9.3061
1152 42.2
16.060
15
21 0 42.68
9.5075
22 19 45.9
10.390
15
22 57 16.35
9.8005
1137 0.5
16.797
16
21 3 15.98
9.5595
22 9 22.0
10.476
16
22 59 34.25
9.9098
1121 14.9
16.790
17
21 5 48.98
9.6475
2158 48.9
10.697
17
23 1 51.87
9.9911
11 5 25.5
16.869
18
21 8 21.69
9.6495
2148 6.6
10.779
18
23 4 9.20
9.9864
10 49 32.4
16919
19
21 10 54.09
9.6374
21 37 15.3
10.930
19
23 6 26.25
9.9818
10 33 35.7
15.971
20
21 13 26.18
9.6399
21 26 15.0
11X60
20
23 8 43.03
9.9n9
10 17 35.6
16098
21
21 15 57.95
9.6968
21 15 5.8
11.997
21
23 10 59.54
9.9797
10 132.2
164)63
22
21 18 29.40
9.5915
21 3 47.8
11.873
22
23 13 15.78
9.9663
9 45 25.6
16.135
23
21 21 0.54
9.6169
20 52 21.1
11.517
23
23 15 31.76
9.9610
9 29 15.9. 10.185
24
21 23 31.36
9.6109
S20 40 45.8
11.658
24
23 17 47.49
9.9598
a 9 13 3.2 1 16.935
40
MARCH, 1855.
VII.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right Awension.
Diff.
fori m.
Declination.
Diff.
for 1 m.
Hour.
Right AKeiwion.
Diff.
forlm.
Declination.
Diff
forlm.
SATl
rRDAl
r 17.
MONDAY
19.
h. ra. a.
•.
O 1 N
N
h. m. •.
•.
O 1 u
«
0
23 17 47.49
a.%98
& 9 13 3.2
16.385
0
1 2 37.03
9 1356
X. 4 5 40.5
16.350
1
23 20 2.96
9.95M
8 56 47.6
16.383
1
1 4 45.15
9.1360
4 22 0.9
16.330
3
23 22 18.17
9.3513
8 40 29.4
16.395
2
1 6 53.22
9.1843
4 38 18.9
16.380
3
23 24 33.13
9.94Ti
8 24 8.6
16.367
3
1 9 1.25
3.1337
4 54 34.4
16.338
4
23 26 47.84
S.9433
8 17 45.3
16.407
4
1 11 9.25
9.1331
5 10 47.3
16.196
5
23 29 2.31
3.3S03
8 1 19.7
16.445
5
1 13 17.21
9.1335
5 26 57.6
16.150
6
23 31 16.54
9.»ft3
7 34 51.8
16.483
6
1 15 25.13
9.1330
5 43 5.1
10.108
7
23 33 30.53
3.3tl3
7 18 21.8
16.617
7
1 17 33.03
9.1317
5 59 9.8
10.065
8
23 35 44.30
a.«76
7 149.8
16.660
8
1 19 40.91
9.1314
6 15 11.6
104»6
9
23 37 57.85
%n»
6 45 15.9
16.580
9
1 21 48.78
9.1311
6 31 10.6
15.964
10
23 40 11.18
9.3909
6 28 40.2
16.606
10
1 23 56.63
9.1300
6 47 5.9
1&M2
11
23 42 24.29
9.3167
6 12 2.8
16.635
11
1 26 4.47
9.1308
7 2 58.3
15.848
12
23 44 37.19
9.3133
5 55 23.7
16.680
12
1 28 12.30
9.1306
7 18 47.5
15.798
13
23 46 49.88
9.9096
5 38 43.3
16.683
13
1 30 20.13
9.1306
7 34 33.3
15.736
t 14
23 49 2.37
9.9004
5 22 1.6
16.704
14
1 32 27.97
9*1306
7 50 15.6
IMTt
15
23 51 14.65
9.90M
5 5 18.7
16.733
15
1 34 35.81
9*1300
8 5 5^1.4
15.6n
16
23 53 26.74
9.19B8
4 48 34.8
16.740
16
1 36 43.66
9.1311
8 2129.6
15.5S6
! 17
23 55 38.64
9.1907
4 3149.9
10.750
17
1 38 51.53
9.U14
8 37 1.0
15.498
1 18
23 57 50.34
9.19B7
4 15 4.1
10.770
18
1 40 59.41
9.1317
8 52 28.6
16.430
1 19
0 0 1.86
9.1907
3 58 17.5
10.783
19
1 43 7.31
9.1890
9 7 52.4
15.306
20
0 2 13.21
9.18:8
3 4130.2
10.793
20
1 45 15.23
9*1333
9 23 12.3
15.906
21
0 4 24.40
9.1800
3 24 42.5
10.800
21
1 47 23.18
9*1338
9 38 28.2
16.930
22
0 6 35.43
9.1893
3 7 54.3
10.805
22
1 49 31.17
9.1335
9 53 40.0
16.109
23
0 8 46.29
9.1790
S. 2 51 5.8
10.808
23
1 51 39.19
9.1349
N.IO 8 47.6
16X03
i
SU
NDAY
18.
TUE
:SDAY
i
0
0 10 56.98
9.1760
s. 2 34 17.1
10.811
0
1 53 47.25
9.1318
N.IO 23 60.9
UMl
1
0 13 7.51
9.I74S
2 17 28.3
10.813
1
1 55 55.35
9*1355
10 38 49.9
14.048
3
0 15 17.89
9.1718
2 0 39.6
10.819
2
1 58 3.49
9.1363
10 53 44.6
14.875 1
3
0 17 28.13
9.1691
143 51.0
10.809
3
2 0 11.67
9.1309
11 8 34.9
14.800
4
0 19 38.23
9.1071
127 2.6
10.804
4
2 2 19.90
9.1878
1123 20.6
14.793 1
5
0 21 48.18
9.1648
1 10 14.6
10.798
5
2 4 28.18
9.1387
1138 1.7
14.045 1
6
0 23 58.00
9.10-17
0 53 27.0
10.793
6
2 6 36.52
9.1306
1152 38.1
14.507 .
7
0 26 7.69
9.1006
0 36 39.8
10.789
7
2 8 44.91
9.1405
12 7 9.6 14.488 1
8
0 28 17.26
9.iaed
0 19 53.3
10.769
8
2 10 53.36
9.1415
12 21 36.3 14.407
9
0 30 26.71
9.iMa
S. 0 3 7.5
10.754
9
2 13 1.88
9.1436
12 35 58.1: 14.334 ,
10
0 32 36.05
9.1616
N. 0 13 37.4
10.740
10
2 15 10.47
9.1438
12 50 14.9 14.940
11
0 34 45.27
9.1698
0 30 21.3
10.793
11
2 17 19.13
9.14W
13 4 26.6 14.1*5
12
0 36 54.38
9.1610
0 47 4.1
10.704
12
2 19 27.85
9.1463
13 18 33.3 UM
13
0 39 3.39
9.1496
1 3 45.8
10.685
13
2 21 36.65
9.1475
13 32 34.8 is.»3
14
0 41 12.30
9.1€78
120 26.3
10.683
14
2 23 45.53
9.1486
13 46 31.0 13.<«5
15
0 43 21.12
9.1408
137 5.4
10.630
15
2 25 54.49
9.1509
14 0 21.9 13.807
16
0 45 29.85
9.1449
163 43.1
16414
16
2 28 3.54
9.1516
14 14 7.5 13.717
17
0 47 38.50
9.1436
2 10 19.2
16.588
17
2 30 12.67
9.1530
14 27 47.6 134135
18
0 49 47.07
9.1499
2 26 53.7
16.560
18
2 32 21.88
9.1544
14 4122.3 13.533
19
0 51 55.56
9.1410
2 43 26.4
16.530
19
S 34 31.18
9.1560
14 5151.5
20
0 54 3.98
9.1308
2 59 57.3
10.6UO
20
2 36 40.57
9.1576
15 8 15.0
13.345
21
0 56 12.34
9.1387
3 16 26.2
10.407
21
2 38 50.06
9.1503
15 21 32.7
13.949 ,
22
0 58 20.63
9.l3n
3 32 53.1
10.439
22
2 40 59.65
9.1608
15 3144.6
13.153 ,
23
1 0 28.86
9.1387
3 49 17.9
10.396
23
2 43 9.33
9.16W
15 47 50.8 13.007
24
1 2 37.03
9.1Sa8
N. 4 6 40.5
16.U0
24
2 45 19.11
9.1040
N.16 0 51.2, 19.060
VIII.
MARCH, 1855.
41
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Dinr.
forlm.
DKlinatlon.
Diflr.
forlm.
Hour.
Diff.
for Ira.
DeclinaUoo.
DifT.
for 1 m.
1
WEDN
ESDA
Y 21.
FRIDAY
23.
h. m. •.
•.
O 1 M
jf
h. m. t.
8.
o 1 n
N
0
2 45 19.11
3.1640
N.16 0 51.2
13.960
0
4 31 23.19
3.3548
N.24 13 5.7
7.378
1
2 47 29.00
9.10ff7
16 13 45.7
13.800
1
4 33 38.50
3.3569
24 20 18.5
7.145
2
2 49 39.00
9.I575
16 26 34.2
13.786
2
4 35 53.90
3.3575
24 27 23.2
7U)13
3
2 51 49.11
9.10M
16 39 16.5
13.666
3
4 38 9.39
3.3590
24 34 19.9
6.878
4
2 53 59.32
3.1710
16 51 52.7
13.668
4
4 40 24.97
3.3604
24 41 8.5
6.748
5
2 56 9.63
3.173B
17 4 22.8
13.451
5
4 42 40.64
3.3617
24 47 49.0
6.608
6
2 58 20.06
3.1747
17 16 46.7
13.847
6
4 44 56.39
3.3880
24 54 21.4
6.478
7
8 0 30.60
3.1766
17 29 4.3
13.343
7
4 47 12.21
3.3643
25 0 45.6
6.887
8
3 2 41.24
3.178S
17 41 15.6
13. W7
8
4 49 28.10
3.3S56
25 7 1.7
6.301
1 9
3 4 51.90
3.1803
17 53 20.6
13UB1
9
4 51 44.07
3.3667
25 13 9.7
%M&
10
3 7 2.86
3.1033
18 5 19.2
11.933
10
4 54 0.11
3.3678
25 19 9.5
5.936
11
3 9 13.84
3.iaii
18 17 11.2
11.813
11
4 56 16.22
3.3688
25 25 1.1
5.791
12
3 1124.94
3.1860
18 28 56.6
11.703
12
4 58 32.39
3.3896
25 30 44.5
6.654
13
3 13 36.16
3.1880
18 40 35.4
wjm
13
5 0 48.62
3.3708
25 36 19.6
6.516
14
3 15 47.49
3.1809
18 52 7.5
11.480
14
5 3 4.90
3.3718
25 41 46.5
5.878
15
3 17 58.94
3.191B
19 3 32.9
11.368
15
5 5 21.24
3.3738
25 47 5.0
5.340
16
3 20 10.51
3.1998
19 14 51.5
11.365
16
5 7 37.64
3.3787
25 52 15.3
5.103
17
3 22 22.19
3.I0M
19 26 3.4
11.143
17
5 9 54.09
3.3745
25 57 17.3
4.963
; 18
3 24 33.99
3.1978
19 37 8.5
11.097
18
5 12 10.58
9.3751
26 2 11.0
4.825
: 19
3 26 45.91
3.1998
19 48 6.6
10.913
19
5 14 27.11
3.3767
26 6 56.3
4.686
i 20
3 28 57.96
3.3018
19 58 57.8
10.796
20
5 16 43.68
3.3788
26 1133.2
4.517
1 21
3 31 10.13
3.3098
20 9 42.0
10.678
21
5 19 0.28
3.3no
26 16 1.8
4.407
1 22
3 33 22.42
3.3000
20 20 19.2
10.661
22
5 21 16.92
3.3n6
26 20 22.1
4.368
1 23
3 35 34.84
3.3080
N.20 80 49.3
10.448
23
5 23 33.59
3.3780
N.26 24 34.0
4.139
i
i
THUl
ISDAI
I 23.
SAT
URDA
Y 24.
: 0
3 87 47.88
3.3100
N.20 41 12.3
10.836
0
5 25 50.28
3.3788
N.26 28 37.6
8J00
, 1
3 40 0.04
3.3130
20 6128.2
10.305
1
5 28 6.99
3.3785
26 32 32.8
8.860
2
3 42 12.82
3.3140
21 136.8
10.084
2
5 30 23.71
3.3788
26 36 19.6
8.710
3
3 44 25.72
3.3160
21 11 88.2
9.963
3
6 32 40.45
3.3790
26 39 58.1
8.670
' 4
3 46 38.74
3.3180
21 21 82.3
9.840
4
5 34 57.20
3.3793
26 43 28.1
8.480
1 5
3 48 51.88
3.3300
21 31 19.0
9.717
5
5 37 13.95
3.3792
26 46 49.7
8.390
6
3 51 6.15
3.3330
21 40 58.4
9.605
6
5 39 30.70
3.3792
26 50 3.0
8.151
7
3 53 18.54
3.3340
21 50 30.4
9.473
7
5 41 47.45
3.3793
26 53 7.9
8.013
8
3 55 32.04
3.3300
21 59 55.0
9.847
8
5 44 4.19
3.3790
26 56 4.4
3.873
9
3 57 45.66
3.3980
22 9 12.0
9.333
9
5 46 20.93
3.3788
26 58 52.4
3.783
10
3 59 59.40
3.3399
22 18 21.5
9.006
10
5 48 37.65
3.3785
27 132.0
3J93
11
4 2 13.26
3.3818
22 27 23.4
8.968
11
5 50 54.36
3.3783
27 4 3.3
3.453
12
4 4 87.23
3.3n7
22 36 17.8
8.843
12
5 53 11.05
3.3779
27 6 26.2
3.813
13
4 6 41.31
3.3866
22 45 4.6
8.715
13
5 55 27.71
3.3774
27 8 40.8
3.178
14
4 8 55.50
3.3878
22 53 43.7
8.087
14
5 57 44.34
3.3768
27 10 47.0
3.088
15
4 11 9.80
3.3893
23 2 15.0
8.458
15
6 0 0.93
3.3703
27 12 44.8
1.898
16
4 13 24.21
3-9410
23 10 38.6
8.839
16
6 2 17.49
3.3767
27 14 34.2
1.788
17
4 15 38.73
3.3437
23 18 54.5
8.300
17
6 4 34.01
3.3790
27 16 15.2
1.614
18
4 17 53.35
3.3445
23 27 2.6
8.070
18
6 6 50.48
3.3743
27 17 47.9
1.475
19
4 20 8.07
3.3403
23 35 2.9
7.940
19
6 9 6.91
3.3788
27 19 12.3
1.887
90
4 22 22.90
3.3479
23 42 55.3
7.808
20
6 11 23.28
3.3733
27 20 28.4
1.198
21
4 24 37.83
3.M96
23 50 39.8
7.676
21
6 13 39.59
3.3713
27 2136.1
1.069
22
4 26 52.86
3.3613
23 58 16.4
7.548
22
6 15 55.84
3.3703
27 22 35.5
0.930
23
4 29 7.98
3.353B
24 5 45.0
7.410
23
6 18 12.03
3.3693
27 23 26.5
0.781
24
4 31 23.19
'■■ ' — —
3.3643
N.24 13 5.7
7.378
24
6 20 28.15
3-3890
N.27 24 9.2 j 0.613 1
42
MARCH, 1855.
IX.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoar.
Right AKenakm.
Diff
(brim.
Declination.
DIIT
fori m
Hour.
Rifht Aacansion.
wir.
for 1 m.
Declination.
Diff.
forlm.
SUP
^DAY
25.
TUESDAY
27.
h. m. ■.
a.
o
If
h. m. a.
a.
O 1 fl
ft
0
6 30 38.15
9.90B0
N.37 21 9.8
0.649
0
8 6 47.31
9.1498
Ni85 33 35.8
5.598
1
6 33 44.18
%Wf7
27 24 43.6
O.Wd
1
8 8 55.77
9.1199
35 17 0.8
5.643
2
6 35 0.13
^.aoM
27 25 9.8
0.968
3
8 11 4.01
9.1356
35 11 18.8
5.766
3
6 37 16.00
3.9M0
27 25 27.9
0.9S1
3
8 13 13.02
9.1118
85 6 30.0
5.879
4
6 39 31.79
a.«aft
27 25 37.8
0.094
4
8 15 19.81
9.1981
34 59 34.4
5.966
5
6 31 47.49
S.9610
37 35 39.4
0.049
5
8 17 27.38
9.1944
34 63 33.0
64)97
6
6 34 3.09
S.3fi04
37 35 32.8
0.178
6
8 19 34.73
9.1907
24 47 33.8
6.900
7
6 36 18.59
%Mn
27 25 18.0
0.814
7
8 21 41.85
9.1170
34 41 6.9
6.190
8
6 38 33.99
s.9sao
27 24 55.0
0.460
8
8 33 48.74
9.1119
34 34 44.4
6.410
0
6 40 49.39
a.9M9
27 24 23.8
0.066
9
8 35 55.40
9.1096
34 38 15.3
6.M0
10
6 43 4.48
%Wi
27 23 44.4
0.79J
10
8 38 1.84
9.1055
34 31 39.7
•.660
11
6 45 19.55
%VM
27 22 56.9
0.856
11
8 30 8.05
9.1016
34 14 67.6
6.766
13
6 47 34.51
9.9483
27 22 1.4
0.908
13
8 33 14.03
9.0960
34 8 8.8
6.666
13
6 49 49.35
9.946S
27 20 57.8
1.197
13
8 34 19.79
94041
34 1 13.7
6.979
14
6 53 4.07
9.9443
37 19 46.2
1.961
14
8 36 35.32
941909
33 54 13.3
74n9
15
6 54 18.66
9*9491
37 18 26.5
1J96
15
8 38 30.62
94)801
33 47 4.3
7.186
16
6 56 33.11
9.9396
27 16 58.8
1.598
16
8 40 36.68
94)895
33 39 60.1
7.990
17
6 58 47.43
9*9I7«
27 15 23.1
1.682
17
8 42 40.61
94n87
83 33 39.7
7.194
18
7 1 1.60
9.91M
27 13 39.4
1.795
18
8 44 46.11
94n48
33 36 3.1
7.497
19
7 3 15.64
9.9199
27 1147.7
1.997
10
8 46 49.48
94nio
33 17 30.3
7.600
90
7 5 39.53
%M>6
97 9 48.1
94M9
30
8 48 53.63
94)679
33 9 61.1
7.709
31
7 7 43.37
9.9160
37 7 40.7
9.190
31
8 50 67.55
94)6n
83 3 6.9
7.603
93
7 9 56.86
9.9954
37 6 35.4
9J90
33
8 63 1.22
9.M94
33 64 14.7
7.906
33
7 13 10.30
MOP
9.9*18
^DAY
.\37 3 3.4
26.
9.448
33
8 66 4.66
WED>
94)555
FESDA
N.33 46 17.6
T 2a
64)06
0
7 14 33.58
9.9909
N37 0 31.6
%tm
0
8 67 7.88
94)517
N 99 38 14.6
8.101
1
7 16 36.70
9.9174
26 57 53.1
9.708
1
8 69 10.87
94M78
99 30 6.4
6.999
3
7 18 49.65
9.9146
26 55 6.8
9.8T7
3
9 1 13.63
94)419
99 9160.4
S.300
3
7 31 3.43
9.9117
26 52 12.8
9.96»
3
9 3 16.16
94M01
99 13 99.5
6JI98
4
7 33 15.03
9.9088
26 49 11.1
3.093
4
9 6 18.47
941963
99 6 9.8
6.494
5
7 35 37.46
9.»M
26 46 1.8
SJI18
5
9 7 30.66
94)695
91 66 30.3
6.669
6
7 37 39.73
9.9030
26 42 44.9
1345
6
9 9 33.39
94)987
9147 63.1
6.683
7
7 39 51.80
9.90OO
26 39 20 4
9.479
7
9 11 34.01
9.0960
31 30 8.3
6.776!
8
7 33 3.70
9.1000
26 35 48.2
9.508
8
9 13 35.40
9U)919
31 30 18.7
6.679 1
0
7 34 15.41
9.19n
26 32 8.5
1.794
9
0 15 36.56
94)174
91 91 93.6
64)641
10
7 36 36.93
9 1007
26 28 21.3
1.8t8
10
0 17 37.49
94)117
91 19 93.0
94)55
11
7 38 38.36
9.167)
26 24 26.7
1J79
11
9 19 38.31
94)101
91 3 17.0
9.146
13
7 40 49.40
9. IMS
26 20 24.7
44)96
13
9 21 28.72
94)066
80 54 6.5
•-an,
13
7 43 0.35
9.1810
26 16 15.1
4.918
13
9 23 29.02
94)098
90 44 48.6
9J97'
' 14
7 45 11.10
9.1777
26 1158.7
4J140
14
9 35 39.09
1.9999
90 35 96.3
9.416
1 *^
7 47 31.65
9.1744
26 7 31.6
4.469
15
9 87 88.93
1.9966
90 35 58.7
9.603
16
7 49 33.00
9.1710
26 3 3.3
4.869
16
9 39 88.56
1.9990
80 16 35.9
9.690
17
7 51 43.14
9.1676
25 58 24.8
4.7oa
17
9 31 37.98
1.9866
80 6 47.9
9.6n
18
7 53 53.08
9-1643
25 53 39.1
4.899
18
0 33 37.30
1.9860
19 57 4.7
9.7«l>
19
7 56 1.81
9.1607
25 48 46.3
4.941
19
9 35 96.90
1.9816
19 47 16.3
9.816
30
7 58 11.34
9.1A79
25 43 46.3
Ajoeo
30
9 37 94.99
1.9n9
10 37 33.9
9,939
31
8 0 30.66
9-iase
25 38 39.2
5.178
31
9 39 33.56
1.97a
19 87 34.6
HU)I5
93
8 3 39.76
9.IM0
35 33 35.0
5.995
33
9 41 31.93
14708
19 17 31.1
104W
33
8 4 38.64
9.1464
25 38 3.9
5.419
33
0 43 30.08
1-9674
19 7 13.7
10.180
34
8 6 47.31
9.1498
N 35 33 35.8
5.996
34
0 45 18.03
1-6640
.N.18 56 69.4
10.969
X.
MARCH, 1855.
43
r
GREENWICH
MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Right AKKmiotx.
Diff
forlm.
DecUnatioD.
Diflf.
forlm.
Hour.
Right Aac6naioa.
Diff.
forlnL
Declifution.
Diff
forlm.
THUP
LSDAl
' 29.
SATURDAY 31.
h. m. ■.
■.
O 1 -
a
h. m. a.
8.
O 1 M
u
0
9 45 18.03
1J6«0
N.18 56 59.4
10369
0
11 16 21.47
1.8477
N. 9 24 58.9
18.960
1
9 47 15.77
1.M06
18 46 41.3
10.849
1
11 18 12.30
14486
9 1140.8
18494
3
9 49 13.30
1.9dr79
18 36 18.3
10.499
2
1120 3.06
14463
8 58 20.1
18467
3
9 51 10.63
1.9088
18 25 50.6
10.009
3
11 21 53.73
14443
8 44 66.8
18.410
4
9 53 7.77
LM06
18 15 18.2
10.080
4
11 23 44.35
14489
8 3131.0
13.4M
5
9 55 4.71
1,9m
18 4 41.1
10.606
5
1125 34.91
14493
8 18 2.7
13.498
6
9 57 1.45
1.M88
17 53 69.3
10.784
6
11 27 25.41
14416
8 4 31.9
18.683
7
9 58 57.99
1.M88
17 43 12.9
10.810
7
11 29 16.87
14406
7 50 58.7
13.678
8
10 0 54.34
1.9874
17 32 22.1
10.880
8
11 31 6.28
14306
7 37 23.2
13.611
9
10 2 50.50
1.9848
17 21 26.7
104M0
9
11 32 56.64
14389
7 23 45.4
18448
10
10 4 46.48
1.98U
17 10 26.8
11488
10
11 34 46.95
14361
7 10 5.4
13.665
11
10 6 42.28
1.990S
16 59 22.5
11.107
11
11 36 37.22
14876
6 56 23.2
13.799
12
10 8 37.90
1.9908
16 48 13.8
11.180
12
11 38 27.46
14870
6 42 38.9
18.767
13
10 10 33.34
1.9998
16 37 0.8
11.969
13
11 40 17.67
14866
6 28 62.6
18.790
14
10 12 28.59
1.9198
16 25 43.5
11499
14
11 42 7.86
14360
6 16 4.0
13493
15
10 14 23.66
1^160
16 14 22.0
11499
15
11 43 58.00
14887
6 1 13.6
13406
16
10 16 18.57
1.9188
16 2 56.4
11.409
16
11 45 48.13
14364
5 47 21.3
13.887
17
10 18 13.32
1.9110
15 51 26.7
11480
17
11 47 38.25
14861
5 33 27.2
18417
18
10 20 7.91
1.9068
15 39 52.8
11498
18
11 49 28.35
14349
5 19 31.3
18447
19
10 22 2.33
1.9066
15 28 14.8
11486
19
11 51 18.44
14846
5 6 33.6
13478
30
10 23 56.59
1.9098
15 16 32.8
11*789
20
11 53 8.63
14346
4 61 33.8
14406
21
10 25 50.68
1.9001
15 4 46.9
11.796
21
11 54 58.61
14347
4 37 32.4
14486
22
10 27 44.01
1«76
14 52 57.0
11468
22
11 56 48.69
14347
4 23 29.4
14409
23^
10 29 38.39
14900
N14 41 3.2
11497
23
11 58 38.78
14346
N. 4 9 24.9
14468
FRl
[DAY
30.
SUNDA
Y, AI
►RIL 1.
0
1
2
10 31 32.02
10 33 25.51
10 35 18.85
1.8996
1.8800
N14 29 5.6
14 17 4.4
14 4 59.5
11.990
19.069
0
12 0 28.88
( 14850
N. 3 65 18.8
14.118
1.8870
19.118
3
10 37 12.05
1.8868
13 52 50.9
19.178
4
10 39 5.11
1.8880
13 40 38.6
19.938
5
10 40 58.02
1.8807
13 28 22.8
19993
6
10 42 50.80
1.8786
13 16 3.4
19469
7
10 44 43.45
1.8766
13 3 40.5
19.411
PHASES (
)F TJ
iE MOON.
8
9
10 46 35.97
10 48 28.37
1.8748
1.8739
12 51 14.1
12 38 44.3
19.468
L9-690
10
10 50 20.64
ijmi
12 26 11.1
19481
Day. h. m.
11
10 52 12.79
1.8689
12 13 34.6
19485
O Full Moon
♦ •
. 3 10 8.4
12
10 54 4.82
1.8089
12 0 54.8
19480
<C Last Quart
ler, .
. 11 2 0.0
13
10 55 56.75
1.8648
1148 11.8
19.743
0 New Moot
1. .
. 17 16 46.7
14
10 57 48.57
1.8895
1135 25.6
19.796
3) First Quai
ter,
. 24 23 26.9
15
10 59 40.28
1.8808
1122 36.1
19448
16
11 1 31.89
1.8099
11 09 43.7
19406
17
11 3 23.40
1.8676
10 56 48.3
19-948
Iky. h.
18
11 5 14.81
1.8060
10 43 49.9
19.998
<C Perigee,
,
. . 15 23.6
19
11 7 6.14
1.8646
10 30 48.5
U447
<C Apogee,
,
. . 27 23.5
20
11 8 57.38
1.8681
10 17 44.2
18496
21
11 10 48.52
1.8617
10 04 37.1
18.149
22
11 12 39.58
1.8008
9 5127.1
18.189
23
11 14 30.56
1.8490
9 38 14.4
18.936
24
11 16 21.47
1.8477
N. 9 24 58.9
18.960
44
MARCH, 1855.
XI.
GREENWICH MEAN
TIME.
LUNAR DISTANCEa
•
ii
SUU^tNUM
and
Positioa.
Noon.
P.L.
of
Diff
nih.
P.L.
of
DUC
VJh.
P.L.
of
Dur
IXK
P.L.
of
Dur.
I
Saturn
Pollux
Spica
W.
W.
E.
O 1 II
64 44 45
22 30 2
68 20 23
ao6d
S064
8079
O 1 l«
66 13 12
23 58 30
66 51 48
8066
8060
8on
O 1 II
67 41 40
25 27 4
65 23 10
8066
8076
8074
O 1 •
69 10 8
26 66 43
63 64 99
8069
8071
8079
2
Saturn
Pollux
Spica
Antares
w.
w.
E.
E.
76 33 10
34 20 25
56 30 10
102 21 23
9063
9040
90M
9CM8
78 2 5
35 49 38
55 1 4
100 52 4
8016
8oa
8061
8000
79 31 6
37 18 58
53 31 64
99 22 40
8064
8086
8047
8086
81 0 19
38 48 20
62 9 40
97 53 10
8017
8061
80tt
8080
3
Saturn
Pollux
Spica
Antares
W.
W.
E.
E.
88 27 13
46 17 13
44 35 14
90 24 14
9DS4
900«
9023
900ft
89 56 56
47 47 18
43 5 29
88 54 7
8018
8000
8018
9000
9126 46
49 17 30
41 36 39
87 23 53
8014
9004
8016
9004
92 66 42
60 47 60
40 6 46
85 53 32
8000
9000
8010
4
Pollux
Regultts
Spica
Antares
W.
W.
E.
E.
68 21 19
22 16 23
3235 0
78 20 4
9068
904a
9066
69 52 24
23 45 44
31 4 38
76 48 59
9061
8096
9089
9908
6123 38
26 16 25
29 34 12
75 17 47
9046
8011
9087
9046
62 55 0
26 46 23
28 3 43
73 46 26
9000
9007
9886
9010
5
Pollux
Regnlus
Antares
W.
W.
E.
70 33 56
34 19 8
66 7 42
9005
9041
9006
72 6 9
35 50 35
64 35 31
9807
9081
9800
73 38 31
37 22 14
63 3 12
9B00
9099
9809
75 11 2
38 54 5
61 30 43
9801
9919
9886
6
Pollux
Regulus
Antares
W.
W.
E.
82 56 6
46 36 19
53 46 4
981ft
9806
9B4d
84 29 36
48 9 21
52 12 40
9880
96flr7
9841
86 3 17
49 42 35
60 39 7
90«
9840
9888
87 37 8
51 16 0
49 6 20
9891
3O8O
9886
7
Pollux
Regulus
Antares
Jupiter
W.
W.
E.
E.
95 29 2
59 6 2
41 14 2
HI 17 4
9778
9794
978ft
9888
97 3 69
60 40 38
39 39 15
109 44 4
9760
9784
9777
9860
9839 8
62 16 27
38 4 17
108 10 52
9760
»n6
9760
9849
100 14 29
63 60 28
3629 8
106 37 28
9761
9166
9761
9010
8
Retfulus W.
Spica W.
Antares E.
Jupiter E.
Foinalhaut E.
Sun E.
71 48 46
17 58 41
28 30 44
98 47 21
110 46 41
127 44 48
9716
«)ft
9719
7790
9901
8079
73 25 5
19 33 2
26 54 30
97 12 40
109 14 23
126 16 4
9706
9780
9718
9780
9888
8000
75 1 37
21 7 56
25 18 7
96 37 46
107 41 49
124 47 6
9006
3767
9706
9fno
9074
8040
76 38 23
22 43 90
23 41 34
94 230
106 8 67
123 17 54
9004
9786
9006
9710
9009
8008
9
Regulus W.
Spica W.
Jupiter E.
Foraalhaut E.
Sun E.
84 45 50
30 46 20
86 3 28
98 20 28
115 47 52
9889
98ft4
9706
9797
98T7
8624 2
3224 1
84 26 65
96 45 66
114 17 7
9641
9008
9786
88 SSO
34 9 0
8260 6
96 11 8
112 46 9
9779
9061
89 41 14
36 40 17
81 13 9
93 36 4
111 14 65
9807
9616
9810
97S0
10
Regulus W.
Spica W.
Jupiter E.
Fomalbaut E.
Sun E.
97 58 50
43 56 26
73 3 45
85 36 46
103 34 53
9688
9646
9011
9709
9879
99 39 10
45 36 36
71 25 6
84 0 9
102 2 0
96iO
9880
101 19 47
47 17 4
69 46 10
82 23 18
100 28 49
9116
9880
9806
9001
9846
103 0 41
48 67 50
68 6 66
80 46 13
9S 65 90
9009
9606
9074
9071
9009
11
Spica
Anures
w.
w.
57 26 2rt
1 1 39 52
9488
961)
69 9 8
13 90 48
9196
urn
60 62 6
16 2 25
9419
9188
6i 36 23
16 44 40
9489
XII.
MARCH, 1855.
45
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
II
3
1
Star'aNuxM
and
pMiiion.
Midnight.
P. L.
of
IMtt.
XVh.
P. L.
of
Wff
xvmh.
P. L.
of
DIff.
XXIh.
P. L.
of
Diff
Saturn
Pollux
Spica
W.
W.
E.
O 1 if
70 38 39
28 24 28
62 25 46
mm
8097
a069
O t A
72 7 11
29 53 18
60 56 59
8060
8063
8065
O 1 u
73 35 46
3122 14
59 28 7
8077
8056
8063
O 1 «
75 4 24
32 51 17
57 59 11
8070
8053
8086
s
Saturn
Pollux
Spica
Antares
W.
W.
E.
E.
82 29 24
40 18 0
50 33 21
96 23 35
a049
9oan
8080
80Oft
83 58 45
41 47 40
49 3 57
94 53 53
8030
8033
8084
8031
85 28 10
43 17 25
47 34 28
93 24 6
8036
8018
8031
8016
86 57 38
44 47 15
46 4 54
91 54 13
8080
8013
8030
8016
3
Saturn
Pollux
Spica
Antares
W.
W.
E.
E.
94 26 44
52 18 16
38 35 46
84 23 6
9006
a088
8006
9668
95 57 2
53 48 50
37 5 41
82 52 32
9081
9on
8008
9077
97 27 38
55 19 32
35 35 32
81 21 51
9060
9970
9906
9070
98 58 29
56 50 21
34 5 18
79 51 1
9064
9964
9996
9065
4
Pollux
Regulus
Spica
Antares
W.
W.
E.
E.
64 26 30
28 15 39
26 33 12
72 14 58
3B81
9066
9065
9DS4
65 58 8
29 46 11
25 2 40
70 43 23
9095
9078
9085
9097
67 29 55
31 16 57
23 32 9
69 11 38
9016
9963
9987
9990
69 1 51
32 47 56
22 1 41
67 39 44
9911
9969
9967
9918
5
Pollux
Hegulus
Antares
W.
W.
E.
76 43 44
40 26 8
59 58 6
9674
9003
9678
78 16 36
41 58 24
58 25 19
9866
9604
9670
79 49 36
43 30 51
56 52 23
9860
9885
9864
81 22 46
45 3 29
55 19 18
9869
9676
9856
6
Pollux
Regulus
Antares
W.
W.
E.
89 11 9
52 49 36
47 31 24
9619
,. 9699
9618
90 45 20
54 23 26
45 57 19
9804
9831
9810
92 19 43
55 57 26
44 23 4
9795
9611
9801
93 54 17
57 31 38
42 48 38
9787
9808
9704
7
Pollux
Regulus
Antares
Jupiter
W.
w.
E.
E.
101 49 59
65 25 42
34 53 49
105 3 52
9744
3766
9r768
9830
103 25 39
67 1 8
33 18 20
103 30 3
9788
9745
9744
9833
105 1 29
68 36 48
31 42 39
101 56 2
9780
9786
9736
9611
106 37 29
70 12 40
30 6 47
100 21 48
9799
9796
9798
9801
8
Regulus W.
Spica W.
Antares E.
Jupiter E.
Fomalhaut £.
Sun E.
78 15 24
24 19 11
22 4 52
92 27 17
104 35 49
121 48 26
9674
9710
9609
9740
9646
8093
79 52 39
25 55 25
20 28 4
90 51 42
103 2 24
120 18 41
9663
9702
9687
9738
9836
8018
81 30 8
27 32 2
18 51 8
89 15 52
101 28 42
118 48 40
9659
9667
9664
9736
9893
8001
83 7 52
29 9 0
17 14 2
87 39 47
99 54 43
117 18 23
9649
9671
9660
9716
9610
9060
9
Regulus W.
Spica W.
Jupiter E.
Fomalhaut E.
Sun E.
91 20 13
37 18 52
79 35 42
92 0 44
109 43 25
9565
9600
9050
9749
9035
92 59 29
38 57 47
77 58 7
90 25 9
108 11 39
9574
9586
9647
9736
3918
94 39 0
40 37 2
76 20 16
88 49 17
106 39 38
3569
9578
9686
3734
9600
96 18 47
42 16 35
74 42 9
87 13 9
105 7 22
9551
9550
9638
9718
9887
10
Regulus W.
Spica W.
Jupiter K.
Fomalhaut E.
Sun K.
104 41 53
50 38 56
66 27 26
79 8 54
97 21 34
9480
9499
9563
9650
9816
106 23 20
52 20 21
64 47 40
77 31 19
95 47 30
91T7
9470
9540
9640
9605
108 5 6
54 9 6
63 7 35
75 63 31
94 13 8
9465
9406
9687
9680
9701
109 47 10
55 44 6
61 27 13
74 15 29
92 38 27
9451
9459
3035
9699
3778
11
Spica
A mares
W.
W.
64 19 0
18 27 30
9366
3410
66 2 55
20 10 50
9379
3303
67 47 10
2154 36
9850
9875
69 31 44
23 38 47
3846
9359
46
MARCH, 1855.
XIII.
GREENWICH MEAN
TIME.
LUNAB DISTANCEa
11
Sur'aNaiiia
aod
Podtloa.
Noon.
P.L.
of
Diff.
nib.
P.L.
of
DUr.
Vlh.
PL.
of
DIff
IKK
P.L.
of
Dtor.
Jupiter E.
Fomalhaut E.
Sun E.
O 1 M
59 46 34
72 37 14
91 3 30
Sftl3
ao9i
376t
O 1 M
58 5 38
70 58 47
89 28 14
3600
9619
9760
O 1 M
56 24 25
69 20 9
87 52 40
3488
3604
3786
O 1 •
64 43 55
67 41 19
86 16 46
3476
3606
9799
13
Spica W.
Anures W.
Jupiter E.
Fomalhaut E.
Sun E.
71 16 36
25 23 31
46 11 7
69 24 48
78 12 44
asss
9416
3569
9663
73 1 48
27 8 19
44 27 55
57 45 10
76 34 59
3890
SMS
9406
9664
9689
74 47 18
38 53 38
43 44 37
56 5 36
74 56 67
3806
9818
9894
3508
3695
76 33 6
30 39 18
41 0 43
54 35 40
73 18 36
3906
3900
3668
9613
13
Spica W.
Antares W.
Jupiter E.
Fomalhaut E.
Sun E.
a Arietis E.
85 26 45
39 32 43
32 18 30
46 7 31
65 2 26
108 42 12
39SA
3339
3SS9
3SeB
3648
3M8
87 14 21
4120 31
30 33 38
44 38 30
63 33 19
106 56 34
3333
9999
9189
9601
9637
3305
89 3 15
43 8 16
38 48 16
43 49 37
61 41 56
105 10 17
3319
9300
3897
3619
3695
3389
90 50 36
44 56 30
37 3 56
41 10 58
60 1 18
103 33 51
3800
9198
3831
3688
36a
3370
14
Antares W.
Fomalhaut E.
Sun E,
a Arietis E.
54 142
33 7 44
5134 14
94 27 36
3146
9n6
3403
9317
55 51 31
3134 1
49 53 8
98 39 34
3187
3001
3466
3308
57 41 33
30 1 44
48 9 51
90 51 8
3180
3968
3446
3190
69 31 47
38 31 10
46 37 33
89 8 39
3133
8080
9488
9199
15
Antares W.
Sun E.
a Arietis E.
68 45 51
37 53 34
79 57 37
3084
3110
3103
70 37 11
36 9 14
78 8 13
3069
3408
3168
73 38 39
34 35 50
76 18 41
9078
3406
9166
74 30 13
33 43 33
74 39 6
3076
3406
8168
19
Jupiter W.
Sun W.
Saturn E.
55 10 47
17 48 39
54 13 40
3640
3373
56 56 14
19 36 40
53 37 0
3386
36a
3388
58 41 31
31 436
50 40 43
3U0
3648
3808
6036 8
83 43 36
48 54 48
3866
3660
3890
20
Jupiter W.
Fomalhaot W.
Sun W.
Saturn E.
PoUux E.
69 4 31
60 9 34
30 48 15
40 11 33
81 18 17
3446
3904
3717
9408
3164
70 47 3
61 48 37
33 24 32
38 87 59
79 33 53
3409
3606
3788
3436
SM9
73 39 9
63 37 35
34 0 37
36 45 3
77 49 53
3478
3617
9749
3446
3899
74 10 53
65 5 57
3536 3
35 3 33
76 6 17
3496
3838
3766
9467
3417
21
Jupiter W.
Fomalhaut W.
Sun W.
Saturn E.
Pollox E.
Regains E.
83 33 30
73 14 30
43 38 31
26 37 37
67 34 38
104 1 6
3166
3606
3B63
3676
3606
3617
84 18 35
74 51 17
45 1 40
3458 1
65 63 33
102 20 17
3008
3710
3873
3604
3694
3686
85 51 36
76 37 44
46 34 35
83 19 9
64 13 53
too 39 55
3691
3796
9891
9630
36a
3664
87 39 53
78 3 50
48 7 6
81 40 55
63 33 39
98 59 57
3740
3741
9909
9668
9561
9579
22
Jupiter W.
Fomalhaut W.
Sun W.
Pollux E.
Regttlos E.
95 35 33
85 59 5
55 43 41
54 17 43
90 46 13
3737
3036
6001
3660
3060
97 11 23
87 33 1
57 13 53
52 39 55
89 8 40
3760
3841
8019
306B
3678
98 46 56
89 6 36
58 43 43
51 3 33
87 31 31
9764
3857
8039
388tf
3605
100 33 11
90 39 50
60 13 7
49 35 33
85 54 45
3779
9875
8067
3706
3719
33
Fomalhaut W.
Sun W.
a Arietis W.
Pollux E.
98 80 26
67 34 43
34 51 51
4126 15
3009
3144
1011
3788
99 5127
69 1 59
36 21 50
39 51 29
3078
8161
8009
98(^i
101 33 7
70 88 55
37 51 51
38 17 4
3806
8177
8010
3818
103 52 36
71 55 33
39 31 51
36 43 59
8019
8198
aoa
9n8
XIV.
MARCH, 1866.
47
GREENWICH MEAN
TIME.
1
LUNAR DISTANCES.
1^
y
11
Sur'aNama
and
Posiiion.
Midnight.
P. L.
of
DIff.
XVh.
P. L.
of
Diff
xvmh.
P. L.
of
Dlff.
XXIh.
P. L.
of
Diff.
Jupiter E.
Fomalhaut E.
Sun E.
O 1 «
53 1 8
66 2 19
84 40 36
9464
2707
O 1 t,
51 19 4
64 23 8
83 4 5
3461
3683
3694
o 1 u
49 36 42
62 43 49
81 27 17
8489
9076
3660
O 1 II
47 54 3
61 4 22
79 50 9
3427
9679
9666
12
Spica W.
Antares W.
Jupiter E.
Fomalhaut E.
Sun E.
78 19 13
32 25 19
39 16 44
52 45 54
71 39 58
3983
39B6
2»78
3561
3099
80 5 39
34 11 42
37 32 30
51 6 10
70 1 1
3270
3973
3364
3566
3566
81 52 24
35 58 22
35 48 3
49 26 29
68 21 47
9966
9356
9854
9679
9573
83 39 26
37 45 24
34 3 22
47 46 56
66 42 15
9946
9346
9846
9578
3661
13
Spica W.
Antares W.
Jupiter E.
Fomalhaut E.
Sun E.
a Arietis E.
92 38 53
46 45 0
25 17 32
39 32 54
58 20 23
101 37 7
3190
3187
3833
3661
3903
2356
94 27 35
48 33 47
23 32 4
37 55 22
56 39 12
99 50 6
3180
3176
3833
3606
3491
3347
96 16 33
50 22 50
2146 37
36 18 35
54 57 46
98 2 48
9170
3166
3827
2783
9483
2986
98 5 46
52 12 9
20 1 10
34 42 39
53 16 7
96 15 16
9161
9166
9838
2779
9479
9927
14
Antares W.
Fomalhaut E.
Sun E.
a Arietis E.
61 22 13
27 2 46
44 44 42
87 13 58
3114
S313
3431
3164
63 12 51
25 36 51
43 1 51
85 25 6
3106
8869
9496
9178
65 3 41
24 13 59
41 18 53
83 36 5
3100
3607
9490
9179
66 54 41
22 54 38
39 35 47
81 46 55
9093
8793
3416
3167
15
Antares W.
Sun E.
a Arietis E.
76 11 50
30 58 54
72 39 26
3073
3404
3Iftl
78 3 32
29 15 25
70 49 45
9070
9406
9161
79 55 16
27 31 58
69 0 4
9068
9410
9169
8147 4
25 48 37
67 10 24
3066
9416
9163
19
Jupiter W.
Sun W.
Saturn E.
62 10 33
24 20 5
47 9 18
9880
3666
3836
63 54 37
25 57 30
45 24 11
9806
9676
9361
65 38 18
27 34 43
43 39 30
9419
9667
9871
67 21 36
29 11 39
41 55 13
9438
2703
3869
20
Jupiter W.
Fomalhaut W.
Sun W.
Saturn E.
Pollux E.
75 52 12
66 44 14
37 11 15
33 20 33
74 23 7
3614
3640
3783
9187
3434
77 33 6
68 22 14
38 46 8
31 39 1
72 40 22
9681
3663
2799
9506
9468
79 13 36
69 59 57
40 20 36
29 57 59
70 58 2
9560
9666
3818
9539
9470
80 53 40
71 37 24
41 54 40
28 17 26
69 16 7
9667
9681
9886
9563
9488
21
Jupiter W.
Fomalhaut W.
Sun W.
Saturn E.
Pollux E.
Rogulus E.
89 7 54
79 39 35
49 39 13
20 3 19
60 52 50
97 20 24
3660
3767
3937
9686
3678
3660
90 45 29
81 14 59
51 10 57
18 26 19
59 13 25
95 41 15
9679
2773
9047
2718
9696
9607
92 22 37
82 50 2
52 42 15
16 49 57
57 34 25
94 2 30
2700
9788
3967
2741
9616
9636
93 59 17
84 24 45
54 13 8
15 14 11
55 55 51
92 24 10
2719
9806
9066
9767
9684
9648
22
Jupiter W.
Fomalhaut W.
Sun W.
Pollux E.
Regulus E.
101 57 7
92 12 41
61 42 9
47 48 57
84 18 21
3796
3899
8074
2119
2739
103 31 42
93 45 10
63 10 51
46 12 43
82 42 20
9808
3909
8098
2137
2747
105 5 59
95 17 17
64 39 9
44 36 51
81 6 43
3893
9927
8110
2763
2763
106 39 57
96 49 2
66 7 6
43 122
79 31 27
9888
3948
8127
9770
2n9
23
Fomalhaut W.
Sun W.
a Arietis W.
Pollux E.
104 22 23
73 21 50
40 51 48
35 9 14
80S0
8900
8016
3848
105 51 58
74 47 49
42 21 42
33 35 47
8047
8935
8030
3863
107 21 12
76 13 30
43 51 30
32 2 40
8064
8339
3035
3877
108 50 6
77 38 53
45 21 12
30 29 52
8080
8364
ao30
28W
48
MARCH, 1865.
XV.
GBEENWICH MEAN TIME.
LUNAB DI8TAJJCES.
i.
Sur'fNaoM
P. L.
P.L.
P.L.
P. L.
33
and
Noon.
of
HP*.
of
VP».
of
IXK
of
PoaiUoiL
jym
Die
Dlff.
Dlff.
Regttlut E.
77 56 31
97M
O 1 If
76 9166
9611
o 1 n
74 47 41
9097
O 1 «
73 13 48
96U
94
Sun W.
79 3 69
8968
80 98 60
8961
81 53 24
8904
83 17 42
8808
a Arietia W.
46 50 48
lOM
48 90 16
8(M9
49 49 37
8046
51 18 50
8066
Saturn W.
19 37 19
1089
14 5 43
8078
15 34 22
8087
17 3 10
8084
Pollux E.
98 57 93
9B07
97 95 13
9099
25 53 22
9037
94 91 50
9089
Regulut E.
65 99 4
9013
63 57 1
9098
62 25 14
9030
60 53 44
9090
95
Sun W.
90 15 46
»t4
91 38 44
8S78
93 131
8889
94 94 8
8309
a Arietis W.
58 49 55
1007
60 11 90
8001
61 39 38
8100
63 7 48
8106
Aldebaimn W.
98 93 48
S149
99 50 58
8148
31 18 12
8149
32 45 31
8140
Saturn W.
94 98 15
Mm
25 57 6
8079
27 25 50
8074
28 54 31
8078
Regulut E.
53 19 55
8007
51 49 51
8017
50 10 59
8097
48 50 20
8088
Spioa E.
107 91 56
9087
105 51 30
8006
104 91 32
8014
102 51 36
8099
96
Sun W.
101 14 50
8496
109 36 35
8484
103 58 13
8488
105 19 45
8446
a Arietis W.
70 27 4
8190
71 54 38
8188
73 22 6
8187
74 40 31
8180
Aldebaran W.
40 9 36
8188
41 30 2
8186
42 57 29
8186
44 24 56
8186
Saturn W.
36 16 41
8101
37 44 50
8108
39 12 56
8107
40 40 57
8110
Regulut E.
41 94 44
8079
39 56 7
8066
38 27 40
8009
36 59 21
8100
Spica E.
95 94 18
8088
93 55 14
8080
92 26 16
8086
90 57 95
8070
97
Sun W.
119 6 19
8481
113 97 90
8468
114 48 26
8484
116 9 29
8486
a Arietit W.
89 5 43
8089
83 39 50
8168
84 59 55
8168
86 97 0
8164
Aldebaran W.
51 49 5
8188
53 9 99
8187
54 36 54
8186
56 4 90
8184
Saturn W.
48 0 9
8190
49 27 54
8191
50 55 38
8194
59 23 19
8194
Regulut E.
99 39 55
8184
28 19 26
8149
96 45 0
8169
25 18 9
8189
Spica E.
83 34 93
8064
89 5 55
8068
80 37 98
8067
79 9 4
8060
98
Sun W.
199 54 43
8488
124 15 48
848i
195 36 55
8480
196 58 5
8487
a Arietit W.
93 49 18
81M
95 9 94
8161
96 36 39
8160
08 3 41
8148
Aldebaran W.
6399 0
8194
64 49 40
8191
66 17 24
8119
67 45 11
8114
Saturn W.
59 41 49
8110
61 9 36
8118
62 37 96
8116
64 5 17
8119
Pollux W.
19 3 39
8007
90 31 45
80O9
92 0 4
8066
93 98 28
8066
Spica E.
71 47 19
8087
70 18 54
8067
68 60 28
8066
67 29 0
8064
99
Aldebaran W.
75 5 19
8008
76 33 37
8066
78 9 1
80SI
79 30 31
8078
Saturn W.
7195 35
8008
79 53 53
8060
74 99 16
8066
75 60 44
8070
Pollux W.
30 5145
8081
39 90 42
8008
33 49 45
8061
35 18 55
8048
Spica E.
69 58 53
8086
58 30 4
8083
57 1 9
8080
55 39 0
8064
Antaret E.
106 60 96
8008
104 2124
8089
109 59 16
8047
101 93 1
8oa
30
Aldebaran W.
86 64 46
8047
8824 0
8(M1
89 53 22
8088
91 99 54
8098
Saturn W.
83 14 44
8040
84 43 56
8041
86 13 18
8099
87 49 51
8098
Pollux W.
49 46 34
8014
44 16 29
8007
45 46 33
8000
47 16 46
9009
Spica £.•
48 6 35
8096
46 35 57
8099
45 6 11
8017
43 36 19
8010
Antaret £.
93 56 13
8018
99 96 14
8008
9056 9
9000
89 94 55
9009
31
Aldebaran W.
98 59 47
909
100 93 14
9061
101 53 60
9078
103 94 36
9086
Saturn W.
96 19 41
9080
96 43 7
9061
98 13 43
9078
99 44 99
9088
Pollux W.
64 60 17
9084
66 9198
9M8
67 59 50
9808
59 94 93
9097
Spica E.
30 5 3
9060
34 34 25
9074
33 3 40
900f)
31 39 47
9084
1
AnUret £.
816195
9064
80 20 14
9046
78 48 52| 90S7
77 17 90
90J6
XVI.
MARCH, 1855.
49
GREENWICH MEAN TIME.
LUNAR DISTANCES.
h
Sur'f Name
P. L.
P. L.
P. L.
P. Lk
Ȥ
and
Midnight.
of
XVh.
of
xvmh.
of
XXIh.
of
23
PMition.
Diff.
Dinr.
9B71
Diflr.
Difll
Regtilus E.
O « M
71 40 14
9BW
O 1 h
70 6 59
O 1 U
68 34 2
9B86
O 1 «
67 124
9899
24
Sun W.
84 4147
1119
86 5 37
mi
87 29 13
1149
88 52 36
IMS
a Arielis W.
52 47 55
1061
54 16 52
1066
55 45 41
1074
57 14 22
1081
Saturn W.
18 32 6
1066
20 1 7
1066
21 30 11
1066
22 69 15
1069
Pollux E.
22 50 37
9097
21 19 43
9989
19 49 8
9097
18 18 51
1011
Regulus E.
59 22 29
9089
67 51 28
9974
56 20 43
9966
54 60 12
9997
25
Sun W.
95 46 35
1400
97 8 51
1408
98 30 58
1415
99 52 58
1499
a Arietis W.
64 35 52
1110
66 3 49
1116
67 31 39
1190
68 59 24
1194
Aldebaran W.
34 12 52
1117
35 40 17
1116
37 7 43
1116
38 35 9
1116
Saturn W.
30 23 8
1089
31 51 40
1087
33 20 6
1091
34 48 26
1096
Regulos E.
47 20 52
104A
45 51 35
1069
44 22 28
1061
42 53 31
1069
Spica E.
101 21 50
1010
99 52 14
1017
98 22 48
1041
96 53 29
1060
26
Sun W.
106 41 11
1449
108 2 32
1461
109 23 49
1466
110 45 1
1466
a Arielis W.
76 16 53
1143
77 44 10
1148
79 11 22
1146
80 38 34
1160
Aldebaran W.
45 52 23
1116
47 19 49
1116
48 47 15
im
50 14 40
1117
Saturn W.
42 8 54
1114
43 36 47
1116
45 4 37
1119
46 32 23
1119
Regulus E.
36 31 11
1106
34 3 10
1114
32 35 17
1190
31 7 32
1197
Spica E.
89 28 39
1074
87 59 59
1078
86 31 23
1089
85 2 51
1084
27
Sun W.
117 30 32
1466
118 51 36
1466
120 12 36
1466
121 33 39
1464
a Arietis W.
87 54 3
1166
89 21 6
IIM
90 48 10
1164
92 15 14
1161
Aldebaran W.
57 31 48
im
58 59 19
1119
60 26 50
1110
61 54 24
1198
Saturn W.
53 51 0
1194
55 18 41
1191
56 46 21
1199
58 14 4
1190
Regulus E.
23 51 6
1168
22 24 19
1174
20 57 41
1161
19 31 8
1186
Spica E.
77 40 41
1091
76 12 20
1003
74 44 2
1091
73 15 42
1069
28
Sun W.
128 19 17
1464
129 40 33
1460
131 1 53
1447
132 23 17
1444
aArieUs W.
99 30 53
1148
100 58 8
1144
102 25 26
1141
103 52 46
1118
Aldebaran W.
69 13 3
1110
70 41 0
1107
72 9 1
1101
73 37 7
1096
Saturn W.
65 33 12
1109
67 1 11
1106
68 29 14
1101
69 57 22
1097
Pollux W.
24 56 57
1081
26 25 30
1076
27 54 9
1079
29 22 54
1087
Spica £.
65 53 30
1080
04 24 57
1078
62 56 20
1074
61 27 38
1071
20
Aldebaran W.
80 59 7
1071
82 27 50
1066
83 56 41
1060
85 25 39
1061
Saturn W.
77 19 19
1076
78 47 69
1069
80 16 46
1061
81 45 41
1036
Pollux W.
36 48 12
1019
38 17 36
ion
39 47 8
1097
41 16 47
1099
Spica E.
54 3 3
1048
52 33 50
1041
61 4 31
1019
49 35 6
1034
Antares E.
99 53 41
1019
98 24 16
ion
96 64 43
1096
95 25 1
1090
30
Aldebaran W.
02 52 34
1019
94 22 23
1011
95 52 22
1004
97 22 30
9997
Saturn W.
89 12 32
1018
90 42 22
1011
92 12 21
1006
93 42 26
9996
Pollux W.
48 47 9
9986
50 17 41
99n
61 48 23
9969
53 19 15
9961
Spica E.
42 6 19
1004
40 36 10
9908
39 6 55
9991
37 35 33
9986
Antares £.
87 54 31
9986
86 23 59
99n
84 53 17
9969
83 22 26
9969
31
Aldebaran W.
104 55 32
9968
106 26 38
9949
107 67 55
9941
109 29 22
99M
Saturn W.
101 15 25
9966
102 46 33
9947
104 17 52
9009
106 49 22
96S0
Pollux W.
6056 7
9918
62 28 3
9910
64 0 9
9901
65 32 26
9898
Spica E.
30 1 49
9966
28 30 44
9964
26 59 34
9951
25 28 20
9947
1
Antares E.
75 45 37
1 — — .. —
9990
74 13 43
9911
72 41 38
9903
71 9 2^
9894
1 J
60
APRIL, 1855.
I.
AT GREENWICH APPARENT NOON.
1
1
THE SUN'S
Sidereal
Time
of the
Semidi-
aweter
pa«iiif
the
Merid-
iao.
Equation of
rime,
to 6e
addedto
Diff.
for
Ibour.
tubtraeted
from
Apparent
Time.
Diir. for
Ibour.
Apparent
DecQaaUoo.
DMT
fof
Ihour.
Semi-
dUoMiar.
Sun.
1
h. m. 9.
0 41 11.72
a.
9.095
N. 4 2^ 11.9
67 90
16 ^.10
64.46
m. a.
4 3.86
8.
0.761
Mon.
2
0 44 49.94
9.099
4 49 18.4
57.69
16 1.82
64.47
3 45.58
0.756
Tues.
1
3
0 48 28.30
9.105
5 12 19.7
57.46
16 1.54
64.49
3 27.44
0.761
;Wed.
4
0 52 6.80
9.112
5 35 15.5
57.22
16 1.26
64.51
3 9.44
0.745
Thur.
5
0 55 45.47
9.119
5 58 5.6
56.97
16 0.98
64.54
2 51.61
0.787
Fri.
6
0 59 24.33
9.12S
6 20 49.5
56.70
16 0.70
64.57
2 33.95
0.728
,Sat
7
1 3 3.41
9.W7
6 43 27.0
56.48
16 0.42
64.60
2 16.52
0.719
iSun.
6
1 6 42.71
9.147
7 5 57.9
56.14
16 0.14
64.63
1 59.33
0.710
Mon.
1
9
1 10 22.27
9.167
7 28 21.6
55.84
15 59.86
64.67
1 42.38
0.699
1
iTues.
10
1 14 2.10
9.168
7 60 37.9
55.63
15 59.58
64.71
1 25.69
0.688
Wed.
11
1 17 42.21
9.180
8 12 46.4
55.20
15 59.31
64.75
1 9.29
0.677
Thur.
12
1 21 22.61
9.198
8 34 46.8
54.86
15 59.03
64.79
0 53.18
0.664
Fri.
13
1 25 3.34
9.206
8 56 38.9
64.50
15 58.76
64.84
0 37.40
0.651
Sat. !14
1 28 44.39
9.219
9 18 22.1
54.12
15 58.48
64.89
0 21.95
0.688
Sun.
Mon.
15
16
1 32 25.77
1 36 7.51
9.288
9.247
9 89 56.1
10 1 20.6
58.78
58.82
15 58.21
15 57.94
64.94
64 99
0 6.83
0.624
0.609
0 7.94
|Tue9.'l7
1 39 49.62
9.262
10 22 85.2|52.90
15 57.68
65 04
0 22.35
0.694
jWed.ilS
1 43 32.11
9.278
10 43 89.6
52.47
15 57.42
65.10
0 36.38
0.579
Thur. 19
1 47 14.99
9.294
11 4 33.4
52.02
15 57.16
65.16
0 50.02
0.568
Fri. '20
1 50 58.27
9.811
11 25 16.2
51.66 15 56.90
65.22
1 3.26
0.546'
Sat. 21
1
1 54 41.95
9.829
11 45 47.7
51.09
15 56.65
65.28
1 16.11
0.528*
Sun. 22
1 58 26.05
9.847
12 6 7.5
50.60
15 56.40
65.34
1 28.54
0.509
Mon. :23
2 2 10.58
9.866
12 26 15.3
50.09 15 56.15
65.40
1 40.53
0.491
TUC9.24
1
2 5 55.55
9.385
12 46 10.6
49.56
15 55.90
65.47
1 52.08
0.472
Wed. 25
2 9 40.98
•w404
13 5 53.3
49.01
15 55.66
65.54
2 8.17
0.458
Thur. 26
2 13 26.87
9.424
13 25 23.1
48.46
15 55.42
65.61
2 13.81
0.488
Fri.
27
2 17 13.23
9.445
13 44 39.6
47.89
15 55.18
65.68
2 23.97
0.412
Sat
28
2 21 0.09
9.466
14 3 42.4
47.82
15 54.94
65 75
2 33 64
0.891
Sun. 29
2 24 47.45
9.487
14 22 31.4 46.75 15 54.701
65.83
2 42.81
0.870
MoQ. 30
1, 1
2 28 35.33
9.506
14 41 6.2 46.16
15 54.46
65.91
2 51.46
0.849
1
1 '
Tues. 31
! I
2 32 23.73
9.580
N.14 59 26.3 45.65
15 54J22
65.99
2 59.59
1
0.827
] Nora-
FUr pMiinff DMjr b« CMiod bjr mbincunff Ok. 18 fnm t
ha Hdaraal Tim*.
II.
APRIL, 1855.
51
GREENWICH MEAN TIME.
THE J
MOON'S
Borisonul Parallax.
Meridian Punft.
A«e.
Nooo.
Midnlffhi.
Noon.
Difffor
Ihour.
Midnight.
Difflfor
Ihour.
DlfT. for
1 hour.
1
2
3
1^ 3.4
15 10.8
15 18.8
15 7.0
15 14.8
15 22.9
5^ 8.2
55 35.4
56 4.7
H-r.o6
1.19
1.24
55 21.4
55 49.9
56 19.7
-t-r.i4
1.22
1.25
h. m.
11 43.0
12 25.0
13 8.6
m.
1.73
1.78
1.87
d
14.3
15.3
16.3
4
5
6
16 26.9
15 35.1
15 43.1
15 31.0
15 39.1
15 47.0
56 34.7
57 4.8
57 34.0
1.26
1.24
1.20
56 49.8
57 19.5
57 48.2
1.26
1.22
1.18
18 54.8
14 44.9
15 39.1
2.00
2.17
2.84
17.3
18.3
19.3
7
8
9
15 50.8
15 58.1
16 5.0
15 54.5
16 1.6
16 8.1
58 2.2
58 28.9
58 53.7
1.15
1.06
0.98
58 15.8
58 41.6
59 6.1
1.11
1.04
0.92
16 37.2
17 38.0
18 39.2
2.47
2.54
2.51
20.3
21.3
22.3
10
11
12
16 11.0
16 16.0
16 19.1
16 13.7
16 17.8
16 19.8
59 15.8
59 33.8
59 45.2
0.85
0.68
-H).81
59 26.5
59 40.5
59 47.8
0.76
0.48
-H).12
19 38.6
20 35.0
21 28.1
2.41
2.28
2.16
23.3
24.3
26.3
13
14
15
16 19.8
16 17.7
16 12.6
16 19.1
16 15.6
16 8.9
59 47.9
59 40.4
59 21.6
—0.09
0.54
1.00
69 45.5
59 32.4
59 8.3
—0.81
0.78
1.21
22 18.6
23 7.5
23 56.9
2.07
2.02
2.03
26.3
27.3
28.3
16
17
18
16 4.6
15 54.3
15 42.6
15 59.7
15 48.6
15 36.5
56 52.6
58 15.0
57 32.1
1.40
1.69
1.84
58 34.7
57 54.0
57 9.8
1.56
1.78
1.87
6
0 44.9
1 35.2
2.07
2.13
29.3
0.9
1.9
19
20
21
15 30.4
15 18.7
15 8.1
15 24.5
15 13.2
15 3.5
66 47.3
66 4.2
55 25.5
1.87
1.72
1.48
56 25.3
55 44.1
66 8.6
1.81
1.61
1.82
2 27.2
3 20.5
4 14.2
2.19
2 23
2.22
2.9
3.9
4.9
22
23
24
14 59.4
14 53.2
14 49.7
14 56.0
14 51.1
14 49.0
54 53.8
54 31.1
64 18.2
1.14
0.75
-^.82
54 41.3
54 23.4
64 15.6
0.96
0.54
—0.11
6 7.1
5 68.0
6 46.4
2.16
2.07
1.96
6.9
6.9
7.9
25
26
27
14 49.0
14 51.0
14 55.6
14 49.7
14 53.0
14 58.7
64 15.6
54 23.1
54 39.6
-M).10
0.50
0.85
54 18.2
54 30.3
54 50.9
-H).31
0.68
1.02
7 32.0
8 15.5
8 67.3
1.86
1.77
1.73
8.9
9.9
10.9
28
29
30
15 2.3
15 10.6
15 20.1
15 6.3
15 15.2
15 25.1
56 4.1
55 34.8
66 9.4
1.16
1.87
1.49
55 18.8
55 61.7
66 27.5
1.27
1.44
1.51
9 38.6
10 20.1
11 3.2
1.72
1.76
1.86
11.9
12.9
13.9
31
15 30.0
15 34.8
66 45.6
-♦-1.50
67 3.5
-+-1.48
11 48.9
1.98
14.9
52
APRIL, 1865.
III.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT -
ASCENSION AND DECLINATION.
Hour.
Diflr.
forlm.
Declinatioa.
Diff.
fori m
Hour.
Right AKension.
Diflr.
forlm.
DecUnation.
Diflr
forlm
SUI^
IDAY
1.
TUESDAY 3.
h. m. •.
0.
O 1 H
M
h. m. «.
•.
o f n
II
0
12 0 28.88
13W0
X. 3 55 18.8
14.113
0
13 30 2.65
1.9337
S. 7 34 24.1
14.353
1
12 2 18.99
1.83M
3 41 11.2
14.136
1
13 3158.11
13963
7 48 38.5
14.330
2
12 4 9.12
18Jff7
3 27 2.2
14.163
2
13 33 53.79
13i99
8 2 51.6
14.307 1
3
12 5 59.27
1.8361
3 12 51.8
14.lfr)
3
13 35 49.69
138S5
8 17 3.3
14.183 '
4
12 7 49.45
1.836ft
2 58 40.1
14.308
4
13 37 45.81
13373
8 31 13.5
14.158 1
5
12 9 39.65
1.8370
2 44 27.1
14.330
5
13 39 42.15
13410
8 45 22.2
14.133
6
12 11 29.88
1.837)
2 30 12.7
11.350
6
13 41 38.72
13440
8 59 29.2
14.104
7
12 13 20.15
1.8382
2 15 57.1
14.370
7
13 43 35.52
13488
9 13 34.6
14375
8
12 15 10.46
1.8389
2 140.3
14.380
8
13 45 32.56
13697
9 27 38.2
14345
9
12 17 0.82
1.8397
1 47 22.5
14307
9
13 47 29.83
13567
9 4140.0
14314
10
12 18 51.23
13107
133 3.7
14334
10
13 49 27.35
13808
9 55 39.9
1S363
11
12 20 41.69
13417
1 18 43.8
14340
11
13 51 25.12
1-9650
10 9 37.8
1S348
13
12 22 32.20
1311»
1 4 22.9
14356
12
13 53 23.15
13603
10 23 33.6
183U
13
12 24 22.78
13486
0 50 1.0
14370
13
13 55 21.43
137S5
10 37 27.3
18378
14
12 26 13.42
13t47
0 35 38.4
14383
14
13 57 19.97
13779
10 51 18.9
13311
15
12 28 4.14
13160
0 21 15.1
14305
15
13 59 18.78
13833
11 5 8.2
10306
16
12 29 54.93
13473
N. 0 6 51.2
14.406
16
14 1 17.85
13668
11 18 55.1
10.763
17
12 31 45.80
13186
S. 0 7 33.3
14.416
17
14 3 17.19
1.9913
1132 39.7
lt.798
18
12 33 36.74
13196
0 21 58.5
14.435
16
14 5 16.81
1.9960
1146 21.9
13381
19
12 35 27.76
13513
0 36 24.3
14.4S3
19
14 7 16.71
93007
12 0 1.5
13338
20
12 37 18.87
13096
0 50 50.5
14.441
20
14 9 16.89
93055
12 13 38.5
13304
21
12 39 10.08
13545
1 5 17.1
14.448
21
14 11 17.37
93105
12 27 12.8
13348
22
12 41 1.40
13563
1 19 44.1
14.4SS
22
14 13 18.14
94)154
12 40 44.3
U309
23
12 42 52.82
MO
13878
NDAl
S. 134 11.5
' 2.
14.468
23
14 15 19.20
WED]
33903
^ESD.
&12 54 13.0
AY 4.
13.454
0
12 44 44.34
13305
8. 148 39.1
14.409
0
14 17 20.56
93959
S.13 7 38.8
19.406
1
12 46 35.96
13613
2 3 6.8
14.405
1
14 19 22.23
93003
13 21 1.6
19364
2
12 48 27.69
13633
2 17 34.7
14.407
2
14 21 24.20
93055
13 34 21.2
1S301
3
12 50 19.54
13653
2 32 2.7
14.408
3
14 23 26.48
93107
13 47 37.7
U.940
4
12 52 11.52
13673
2 46 30.8
14.408
4
14 25 29.08
93460
14 0 51.0
10.106
5
12 54 3.62
136M
3 0 58.9
14.407
5
14 27 31.99
93513
14 14 0.9
13.107
6
12 55 55.85
13717
3 15 26.8
14.405
6
14 29 35.22
93567
14 27 7.4
10380
7
12 57 48.20
13740
3 29 54.6
14.409
7
14 31 38.78
93091
14 40 10.4
13399
8
12 59 40.69
13769
3 44 22.2
14.4M
8
14 33 42.68
936n
14 53 9.9
13363
9
13 1 33.33
13784
3 58 49.5
14.459
9
14 35 46.91
93733
15 6 5.8
13301
10
13 3 26.11
13810
4 13 16.5
14.U7
10
14 37 51.47
93789
15 18 58.0
13338
11
13 5 19.05
I363A
4 27 43.1
14.440
11
14 39 56.37
93015
15 31 46.4
19.773 ;
12
13 7 12.14
13860
4 42 9.2
14.133
12
14 42 1.61
93003
15 44 30.9
19.708 1
13
13 9 5.38
13887
4 56 34.8
14.143
13
14 44 7.19
93050
15 57 11.4
19341 ;
14
13 10 58.77
13915
5 10 50.8
14.413
14
14 46 13.11
9.1017
16 9 47.8
19373 1
15
13 12 52.33
13M3
5 25 24.2
14.401
15
14 48 19.38
9.1075
16 22 20.0
19.503 1
16
13 14 46.07
13973
5 39 47.8
14388
16
14 50 26.00
9.1135
16 34 48.0
19.439
17
13 16 39.99
130O3
5 54 10.6
14375
17
14 52 32.99
9.1196
16 47 11.7
19360 1
18
13 18 34.08
13033
6 8 32.7
14361
18
14 54 40.34
9.1957
16 50 31.0
19.386 ;
19
13 20 28.35
13063
6 22 53.9
143a
19
14 56 48.06
9.un
17 1145.9
19.910 1
20
13 22 22.81
130OI
6 37 14.1
14398
20
14 58 56.14
9.itn
17 23 56.3
19.133
21
13 24 17.47
13137
6 51 33.3
14311
21
15 1 4.58
9.1438
17 36 2.0
19356
22
13 26 12.33
13160
7 5 51.4
14.301
22
15 3 13.3U
9*1500
17 48 3.0
113n 1
23
13 28 7.39
13199
7 20 8.4
14.371
23
15 5 22.58
9.1563
17 59 59.1
11305 1
24
13 30 2.65
13337
8. 734 21.1
14.359
24
15 7 32.14
9.1035
S18 1160.3
113111 1
IV.
APRIL, 1855.
53
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECr.TNATION.
Hour
1
Right A«C6iuioa.
Diff
forlm.
DecUaaUoo.
Diff
forlm.
Hour.
Right AKaaaioa.
DiflT.
forlm.
DecUnatloo.
DiflT
forlm.
THU
RSDA
Y 5.
SATURDAY 7.
h. m. •.
a.
O 1 M
II
h. m. a.
a.
O 1 «
M
0
15 7 32.14
9.MM
S 18 11 50.3
11.819
0
16 58 51.66
94796
S25 36 19.3
6.144
1
15 9 42.08
9.1688
18 23 36.6
11.799
1
17 1 20.17
94784
25 42 23.4
6.909
2
15 11 52.40
9.1761
18 35 17.9
11.646
2
17 3 49.02
94640
25 48 18.2
6498
3
15 14 3.09
9.1814
18 46 54.0
11.660
3
17 6 18.20
9.4806
25 54 3.7
6489
4
15 16 14.16
9.1878
18 58 25.0
11479
4
17 8 47.70
9.4948
25 59 39.9
6496
5
15 18 25.62
9.1M9
19 9 50.7
11.083
5
17 11 17.53
94001
26 5 6.8
6466
6
15 20 37.47
9.0000
19 21 11.0
11.908
6
17 13 47.68
94069
26 10 24.2
6.910
7
15 22 49.70
9.9071
19 32 25.9
11.909
7
17 16 18.15
94100
26 15 32.0
6.080
6
15 25 2.32
9.9W7
19 43 35.2
11.106
8
17 18 48.92
94160
26 20 30.2
4488
9
15 27 15.34
9.9909
19 54 38.8
11.019
9
17 21 19.99
94903
26 25 18.6
4.796
10
15 29 28.75
9.9909
20 5 36.6
10-016
10
17 23 51.36
94989
26 29 57.2
4.369
11
15 31 42.56
9.9SS5
20 16 28.6
10.817
11
17 26 23.02
94000
26 34 26.0
4406
13
15 33 56.76
9.9401
20 27 14.7
10.718
12
17 28 54.96
94346
26 38 44.9
4.930
13
15 36 11.36
9.1407
20 37 54.8
10.617
13
17 31 27.18
9.6300
26 42 53.9
4466
14
15 38 26.36
9.953S
20 48 28.7
10.618
14
17 33 59.67
94404
26 46 52.9
0408
15
15 40 41.75
9.'iS00
20 58 56.3
10.406
15
17 36 32.44
94479
26 50 41.8
3.730 1
16
15 42 57.54
9.9609
21 9 17.6
10.809
16
17 39 5.47
94699
26 54 20.5
3.660
17
15 45 13.73
9.9709
21 19 32.5
10.106
17
17 41 38.74
94666
26 57 49.1
0490
18
15 47 30.32
9.9800
2129 41.0
10.086
18
17 44 12.25
94606
27 1 7.5
3.910
19
15 49 47.32
9.9807
21 39 42.9
0.976
19
17 46 46.00
94640
27 4 15.5
3447
20
15 52 4.72
9.9034
21 49 38.1
0.863
20
17 49 19.98
94661
27 7 13.1
9478
21
15 54 22.52
9.9001
21 59 26.6
0.761
21
17 5] 54.19
9.6718
27 10 0.3
9400
22
15 56 40.73
9A)08
22 9 8.2
9.607
22
17 54 28.61
94764
27 12 37.0
9494
23
15 58 59.35
9.0186
S.22 18 42.8
9.610
23
17 57 3.24
94788
&27 15 3.3
9460
FF
IIDAY
6.
SIJ
fNDA^
IT 8.
0
16 1 18.36
9.9909
&22 28 10.3
9401
0
17 59 38.07
94690
&27 17 19.1
9.176
1
16 3 37.77
9.S9B8
22 37 30.6
9.989
I
18 2 13.09
94669
27 19 24.3
1408
2
16 5 57.58
9.0105
22 46 43.8
9.161
2
18 4 48.29
94669
27 21 18.8
1490
3
16 8 17.79
9.0409
22 55 49.7
9.006
3
18 7 23.66
94010
27 23 2.7
1.641
4
16 10 38.41
9.0408
23 4 48.4
6.016
4
18 9 59.20
94087
27 24 35.8
1.409
6
16 12 59.42
9.0604
23 13 39.7
6.700
5
18 12 34.90
94968
27 25 58.2
1.988
6
16 15 20.82
9.0000
23 22 23.4
6.660
6
18 15 10.75
9.6967
27 27 9.8
1.100
7
16 17 42.61
9.0000
23 30 59.4
6.686
7
18 17 46.75
9.6010
27 28 10.6
0499
8
16 20 4.80
9.*739
23 39 27.6
6.406
8
18 20 22.88
9.6039
27 29 0.6
0.741
9
16 22 27.39
9.0708
23 47 48.0
8.974
9
18 22 59.14
9.6060
27 29 39.7
0460
10
16 24 50.38
9.9663
23 56 0.5
8.149
10
18 25 35.52
9.6073
27 30 7.9
0478
11
16 27 13.75
9.909)
24 4 5.0
8.008
11
18 28 12.01
94001
27 30 25.2
0.197
12
16 29 37.51
9.0009
24 12 1.5
7.870
12
18 30 48.60
94107
27 30 31.6
0416
13
16 32 1.65
9.4066
24 19 49.9
7.707
13
18 33 25.29
9419J
27 30 27.0
0.169
14
16 34 26.17
9.4118
24 27 30.0
7.600
14
18 36 2.06
94136
27 30 11.4
0466
15
16 36 51.06
9.4180
24 35 1.8
7460
15
18 38 38.91
94147
27 29 44.8
0489
16
16 39 16.32
94940
24 42 25.2
7.019
16
18 41 15.83
94167
27 29 7.3
0.716
17
16 41 41.96
9.4006
24 49 40.1
7.176
17
18 43 52.81
94167
27 28 18.8
0409
18
16 44 7.98
9.4966
24 56 46.4
7.089
18
18 46 29.85
94176
27 27 19.2
1467
19
16 46 34.37
9.4497
25 3 43.9
6.897
19
18 49 6.92
94180
27 26 8.4
1.371
20
16 49 1.12
9.44er7
25 10 32.7
6.740
20
18 51 44.01
94183
27 24 46.6
1466
21
16 51 28.22
9.4647
25 17 12.7
6.699
21
18 54 21.11
94166
27 23 13.8
1.609
22
16 53 55.68
94607
25 23 43.9
6440
22
18 58 58.22
94186
27 21 30.0
1499
23
16 56 23.50
94007
25 30 6.1
6.994
23
18 50 35.34
94184
27 19 35.2
9.007
\u
16 58 51.66
94798
S.25 36 19.3
6.144
24
19 2 12.44
94189
- 27 17 29.4
9.191
54
APRIL, 1865.
V.
GREENWICH
MEAN TIME.
THB
MOON'S BIGHT
ASCENSION AND DECLINATION.
Hour.
Rifht AK«n«ion.
Diflr.
Ibrlm
Declinalioa.
Diflr.
forlm.
Hour.
Right Aacanaion.
Diflr.
forlm.
DecUnaUoo.
Diflr.
forlm.
MO]
NDAY
9.
WEDNESDAY 11.
h. m. •.
•.
O 1 11
«
h. m. •.
f.
O 1 M
V
0
19 2 12.44
9^189
&27 17 29.4
9.101
0
21 6 13.24
94687
S22 9 31.8
10419
1
19 4 49.52
axm
27 16 12.6
9.675
1
21 7 41.20
94686
2159 8.9
10465
2
19 7 26.57
%am
27 12 44.7
9.560
2
21 10 8.86
94665
21 48 37.5
10.406
3
19 10 3.59
34107
27 10 6.8
9.746
3
21 12 36.21
94534
21 37 57.6
10.715
4
19 12 40.57
3^150
27 7 15.8
9.997
4
21 16 3.26
9.4481
2127 9.4
10479
5
19 15 17.49
341M
27 4 14.7
6.110
6
21 17 30.01
94481
21 16 13.0
11400
6
19 17 54.36
3.«139
27 1 2.7
6.909
6
21 19 56.44
9.4878
21 5 8.4
11.145
7
19 20 31.16
9jsvn
26 57 39.7
6475
7
21 22 22.56
94696
20 53 55.7
11.970
8
19 23 7.88
341IS
26 54 5.7
6468
8
21 24 48.36
9.4978
20 42 35.0
11419
9
19 25 44.51
94006
26 60 20.8
6.860
9
21 27 13.85
9.4931
20 31 6.4
114tt
10
19 28 21.05
94083
26 46 24.9
4J0i2
10
21 29 39.03
94168
20 19 29.9
11471
11
19 30 57.48
9<60M
26 42 18.1
4.906
11
21 32 3.89
94116
20 7 45.7
11401
12
19 33 33.81
94MA
26 38 0.5
AMi
12
21 34 28.43
94066
19 55 53.8
11497
13
19 36 10.02
94035
26 33 32.2
4.609
13
21 36 52.65
94010
19 43 54.4
19459
14
19 38 46.11
940(M
26 28 53.2
4.749
14
21 39 16.56
9.8066
19 31 47.6
19.176
16
19 41 22.07
94oea
26 24 3.3
4.091
15
21 41 40.16
94905
19 19 33.5
19.907
16
19 43 57.89
94060
26 19 2.6
6.100
16
21 44 3.44
94858
19 7 12 2
194n
17
19 46 33.57
%fM5
26 13 51.3
6.978
17
21 46 26.40
94800
18 54 43.7
19466
18
19 49 9.11
94000
26 8 29.4
6465
18
21 48 49.05
94748
18 42 8.1
19.651
19
19 51 44.49
9.48W
26 2 56.9
6411
19
21 51 11.39
94607
18 29 25.6
19.765
20
19 54 19.70
9«ae5S
25 57 13.8
6407
20
21 53 33.42
94645
18 16 36.3
19478
21
19 56 54.73
9.0693
25 51 20.2
6.989
21
21 56 55.14
94609
18 3 40.2
19400
22
19 59 29.57
94709
25 45 16.2
6.165
22
21 68 16.64
94*40
17 50 37.5
11.N0
23
20 2 4.21
TUE
SDA\
&25 39 1.8
10.
6496
23
22 0 37.63
THl
94466
JRSD/
s.17 37 88.2
LY 12.
11.908
0
20 4 38.65
9.5790
S25 32 87.1
6400
0
22 9 58.41
14487
S.17 24 12.6
11416
1
20 7 12.88
94609
25 26 2.0
6.679
1
22 6 18.89
94886
17 10 60.5
13490
2
20 9 46.91
94697
25 19 16.6
6.»«6
2
22 7 39.06
94185
16 57 22.2
U461
3
20 12 20.74
9469^1
25 12 20.9
7416
3
22 9 58.92
94985
16 43 47.7
U495
4
20 14 54.35
94665
25 6 15.1
7.189
4
22 12 18.48
94A5
16 30 7.2
11.795
6
20 17 27.74
94547
24 57 69.2
7446
6
22 14 37.74
94185
16 16 20.7
11488
6
20 20 0.91
94606
24 50 33.4
7416
6
22 16 56.70
16 2 28.4
U4» 1
7
20 22 33.85
94468
24 42 57.7
7418
7
22 19 15.37
94085
16 48 30.3
14415
8
20 25 6.56
94496
24 35 12.1
73tt
8
22 21 33.74
94086
16 34 26.6
14.100
9
20 27 39.02
94«6
24 27 16.6
Bjm
9
22 23 51.82
94967
16 20 17.4
14.900
10
20 30 11.22
94616
24 19 11.3
8.160
10
22 26 9.61
9.9010
15 6 2.7
14.900 1
11
20 32 43.15
94109
24 10 56.2
6460
11
22 28 27.11
94606
14 51 42.6
14476 '
12
20 35 14.81
94067
24 2 31.5
8400
12
22 30 44.33
94845
14 37 17.3
14.464
13
20 37 46.21
94916
23 63 57.3
6.646
13
22 33 1.27
94706
14 22 46.8
14416
14
20 40 17.35
S4166
23 45 13.7
6.807
14
22 35 17.93
9.9769
14 8 11.3
14411
15
20 42 48.22
94193
23 36 20.6
6.061
15
22 37 34.30
9.9705
13 53 30.9
14.716
16
20 45 18.81
94075
23 27 18.2
0.116
16
22 39 50.40
94666
13 38 45.7
14.766
17
20 47 49.13
94096
23 18 6.5
9.979
17
22 42 6.23
946»
13 23 56.8
14470
18
20 50 19.17
9^081
23 8 45.6
0464
18
22 44 21.79
94670
13 9 1.3
144tf
19
20 52 48.92
94069
22 59 16.6
9475
19
22 46 37.09
9.9697
12 64 2.2
15410
20
20 55 18.37
94661
22 49 36.6
0.716
90
22 48 62.13
94«6
12 38 58.7
15409
21
20 67 47.53
94615
22 39 48.7
0J71
21
22 61 6.91
94440
12 23 50.9
15.161
22
21 0 16.40
94786
22 29 61.9
10J90
22
22 63 21.43
9.9608
12 8 38.9
15.969
23
21 2 44.97
94767
22 19 46.2
m.167
23
22 55 35.70
9.9U7
1153 22.8
15400
24
21 6 13.24
94«7
s22 931.8
10419
24
22 57 49.73
94117
all 38 2.8
15466^
VI.
APRIU 1855.
55
GREENWICH
MEAN TIME.
THB
MOOJTS RIGHT ASCENSION AND DECLINATION.
Hoar.
Rif ht AMMion.
Diflr.
forlm.
DedinttkNi.
DiS
forlm.
Sour.
Right Aacenskm.
DiflT.
forlm.
DeclinftUon.
DiflT.
forlm.
FRI
DAY
la
SUNDAY
15.
h. m. a.
•.
O f M
«
h. m. a.
a.
O 1 «
^
0
92 57 49.73
ijan
S.1138 9.8
15.966
0
0 41 31.50
9.1164
N. 199 39.0
16.516
1
93 0 3.59
«.«T7
1199 38.9
15.430
1
0 43 38.47
9.1167
139 9.5
16.500
2
93 9 17.07
«.«S7
11 711.1
15.499
2
0 45 45.40
1.1159
1 55 38.9
16.489
3
93 4 30.38
«.ai!r7
10 5139.7
15.669
3
0 47 59.30
9.1147
9 12 7.2
16.469
4
23 6 43.45
9.3197
10 36 4.7
15^11
4
0 49 59.17
9.1143
9 98 34.3
5
93 8 56.99
9.9119
10 20 96.3
15.668
5
0 59 6.02
9.1130
9 45 0.1
16.417
6
93 11 8.90
9.9089
10 4 44.5
15.793
6
0 54 12.85
9.1137
3 194.4
16.398
7
93 13 91.98
9.9015
9 48 59.4
15.776
7
0 56 19.68
9.1137
3 17 47.2
16.867
8
93 15 33.45
9.9006
9 33 11.2
16.898
8
0 58 26.50
9.1137
3 34 8.5
16.340
9
93 17 45.41
9.1973
9 17 19.9
15.878
9
1 0 33.32
9.1137
350 28.1
16.311
10
93 19 57.16
9.1988
9 125.7
15.996
10
1 9 40.14
9.1138
4 6 45.9
16.980
11
93 99 8.70
9.1906
8 45 28.7
15.973
11
1 4 46.97
9.1140
4 23 1.8
16.948
19
93 94 90.04
9.1979
8 29 28.9
16.618
12
1 6 53.82
9.1142
4 39 15.7
16.916
13
23 26 31.19
9.1810
8 13 26.4
16.061
13
1 9 0.68
9.1144
4 55 27.6
16.180
14
93 98 49.14
9.1808
7 57 21.4
16.106
14
1 11 7.55
9.1 147
5 1137.4
16.143
15
93 30 59.90
9.1777
7 41 14.0
16.143
15
1 13 14.44
9.1150
5 27 44.9
16.105
16
93 33 3.48
9.1747
7 95 4.9
16.181
16
1 15 21.35
9.1163
5 43 50.0
16.065
17
93 35 13.88
9.1717
7 8 59.1
16.9n
17
1 17 28.29
9.1168
5 59 52.7
16U»3
18
93 37 94.11
9.1068
6 52 37.9
16.959
18
1 19 35.27
9.1163
6 15 52.9
15.980
19
93 39 34.16
9.1600
6 36 21.7
16.986
19
1 21 42.28
9.1170
6 31 50.5
16.937
30
93 41 44 05
9.1633
6 20 3.6
16.317
20
1 23 49.33
9.1177
6 47 45.4
15.899
91
93 43 53.78
9.1608
6 3 43.6
16.347
21
1 25 56.42
9.1186
7 3 37.5
15.816
99
93 46 3.35
9.1S80
5 47 21.9
16.375
22
1 28 3.56
9.1193
7 19 26.7
15.796
93
93 48 19.77
9.1566
& 6 30 58.6
16.400
93
1 30 10.75
9.1999
N. 7 35 12.9
15.745
SATl
URDA
y 14.
MOl
VDAY
16.
0
93 50 99.04
31.1533
& 5 14 33.8 10.«»
0
1 32 17.99
9.1919
N. 7 50 56.1
15.693
1
93 59 31.17
9.1506
4 58 7.6
16.445
1
1 34 25.29
9.1992
8 6 36.2
15.640
9
93 54 40.16
9.1486
4 4140.1
16.467
9
1 36 32.65
9.1939
8 22 13.0
15.666
3
93 56 49.01
9.1463
4 25 11.4
16.488
3
1 38 40.07
9.1943
8 37 46.4
15.530
4
93 58 57.73
9.1441
4 841.5
16.507
4
1 40 47.57
9.1966
8 53 16.5
15.473
5
0 1 6.33
9.1490
3 52 10.5
16WM6
5
1 42 55.14
9.1967
9 8 43.2
15.415
6
0 3 14.81
9-1400
3 35 38.5
6
1 45 2.78
9.1980
9 24 6.3
15.366
7
0 5 23.17
9.1381
3 19 5.6
16.569
7
1 47 10.50
9.1993
9 39 25.7
15.994
8
0 7 31.42
9.1363
3 2 32.0
16.662
8
1 49 18.30
9.1307
9 54 41.5
16.939
9
0 9 39.55
9.1345
2 45 57.9
16.570
9
1 51 26.18
9.1399
10 9 53.5
15.168
10
0 11 47.58
9>1398
2 29 23.4
16.577
10
1 53 34.15
9.1337
10 25 1.6
16.109
11
0 13 55.51
9.1312
2 12 48.6
16.563
11
1 55 42.22
9.1353
10 40 5.7
16.036
19
0 16 3.34
9.1997
1 56 13.4
16.688
19
1 57 50.39
9.1370
10 55 5.7
14.967
13
0 18 11.08
9.1989
1 39 37.9
16.601
13
1 59 58.66
9.1387
11 10 1.5
14.897
14
0 20 18.74
9*1968
123 2.2
16.603
14
2 2 7.03
9.1404
1124 53.1
14.896
15
0 99 96.32
9.1965
1 6 2C$.6
16.603
15
2 4 15.50
9.1491
1139 40.5
14.769
16
0 94 33.82
9« 194-2
0 49 51.0
16.601
16
2 6 24.08
9.1438
1154 23.4
14.678
17
0 96 41.95
9.1930
0 33 15.6
16.587
17
9 8 39.77
9.1466
12 9 1.8
14.609
18
0 98 48.61
9*1918
0 16 40.5
16*681
18
9 10 41.57
9.1476
12 23 35.6
14.696
19
0 30 55.90
9.1968
S. 0 0 5.8
10.574
19
9 19 50.48
9.1496
12 38 4.8
14.447
90
0 33 3.13
9.1198
N. 0 16 28.4
16*566
90
2 14 59.51
9.1515
12 52 2!).3
14.366
91
0 35 10.30
»I188
0 33 2.1
I6.56A
91
2 17 8.66
9.1534
13 6 49.0
14.988
99
0 37 17.49
9*1180
0 49 35.2
16.543
99
2 19 17.92
9.1554
13 21 3.8
14.206
93
0 39 24.49
9-1179
I 6 7.5
16*530
93
2 21 27.30
9.1576
13 35 13.7
14.193
94
0 41 31.50
9*n61
.M. 122 39.01 16.516
94
2 23 36.82
9.1606
.V.13 49 18.6
14.039
56
APRIL, 1855.
VII.
!^ —
GREENWICH MEAN TIME.
'
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar^
Diff
forlm.
DecUnatkm.
Oiff.
for 1 m
Hour.
Right AscMisioa.
Diir.
forlm.
DecUnaOoQ.
Diflf.
Ibrlm
TUBS
$DAY
17.
THURSDAY
19.
h. m. •.
a.
O 1 N
N
h, m. •.
•.
0 1 «
If
0
2 23 36.82
3.IAM
N.13 49 18.6
lAjm
0
4 10 6.95
9.9785
N23 4 20.2
8.7W
1
2 25 46.47
S.1619
14 3 18.3
13.903
1
4 12 23.72
3.3807
23 12 58.3
8.468
2
2 27 56.24
9 l«43
14 17 12.9
13.800
2
4 14 40.63
3.3009
23 21 28.4
8.114 1
3
2 30 6.15
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14 31 2.3
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3
4 16 57.67
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8400
4
2 32 16.20
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14 44 46.3
iiune
4
4 19 14.83
3.3870
23 38 4.5
8.105 t
5
2 34 26.38
3.1710
14 58 24.9
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6
4 21 32.11
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23 46 10.4
SM
6
2 36 36.70
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15 11 58.0
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6
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7
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15 25 25.6
11.415
7
4 26 7.04
3.3930
24 157.6
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8
2 40 57.77
a. 1780
15 38 47.6
I1J33
8
4 28 24.68
3.39J0
24 9 38.9
74J0
9
2 43 8.52
3.1808
15 52 4.0
11.397
9
4 30 42.43
3.3908
24 17 12.0
7.483
10
2 45 19.41
9.1817
16 5 14.7
11.130
10
4 33 0.29
3.3985
24 24 36.9
7440 ,
11
2 47 30.44
9. ISM
16 18 19.5
iiun3
11
4 35 18.25
3-8003
24 31 53.5
7407
13
2 49 41.62
3.1877
16 31 18.4
13.933
12
4 37 36.32
3.1019
24 39 1.7
7407
13
2 51 52.05
3.1903
16 44 11.3
13.833
13
4 39 54.49
3.1005
24 46 1.6
0497
14
2 54 4.43
3.1937
16 56 58.2
13.719
14
4 42 12.75
33)51
24 52 53.0
0.787
15
2 56 16.07
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17 9 39.0
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15
4 44 31.10
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0440
1 16
2 58 27.86
3.1978
17 22 13.6
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16
4 46 49.54
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25 6 10.5
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17
3 0 39.81
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17 34 41.9
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17
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25 12 36.5
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18
3 2 51.91
9.30S0
17 47 4.0
13315
18
4 51 26.68
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25 18 53.9
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19
3 6 4.17
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17 59 19.7
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25 25 2.8
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20
3 7 16.58
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18 1129.0
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21
4 58 22.95
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3 11 41.86
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18 35 27.9
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22
5 0 41.85
9HM
25 42 38.2
0440
23
3 13 54.74
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S 18 47 17.4
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23
5 3 0.82
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WED^
lESD/
LY 18.
FR]
[DAY
20.
0
3 16 7.78
3.3188
N18 59 0.3
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0
6 5 19.84
94n5
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•409
1
3 18 20.98
3.3314
19 10 .'^6.5
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1
5 7 38.92
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25 58 56.0
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2
3 20 34.34
3.3340
19 22 5.9
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2
5 9 58.05
94193
26 4 4.7
0471
3
3 22 47.86
3.3900
19 33 28.4
11.118
3
5 12 17.23
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26 9 4-8
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4
3 25 1.53
3.33^2
19 44 44.0
11.303
4
5 14 36.44
34300
26 13 66.2
4.7W
6
3 27 15.35
3.3318
19 55 52.6
11.080
5
5 16 55.69
34313
26 18 38.8
44M
6
3 29 29.33
3.3346
20 6 54.3
10.970
6
5 19 14.98
34317
26 23 12.7
4.491
7
3 31 43.47
3.3n
20 17 48.9
10.SW
7
5 21 34.30
34330
26 27 37.9
4447
8
3 33 57.77
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20 28 36.4
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8
5^3 53.64
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26 3154.4
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3 36 12.23
3343)
20 39 16.6
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9
5 26 13.00
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26 40 1.3
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24
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N.27 20 29.5
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J
VIII.
APRIL, 1855.
57
1 ll
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour
Right Adcenskm.
DIff
forlm.
DediDation.
DIff.
forlm.
Hour.
Diff.
forlm.
DKlinatioo.
DUE
fori m.
SATl
fRDA1
f 21.
MONDAY
23.
h. m. «.
•.
O 1 M
M
h. m. f.
•■
O 1 «
II
0
6 1 2.48
53175
N.27 20 29.5
1.870
0
7 49 48 73
3.1003
N.26 9 17.6
44M8
1
6 3 21.60
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1
7 52 0.02
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26 4 36.0
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2
6 5 40.46
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2
7 54 11.06
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25 59 45.3
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3
6 7 59.35
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3
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54)10
4
6 10 18.17
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4
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25 49 44.3
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5
6 12 36.91
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27 28 1.8
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5
8 0 42.72
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6
6 14 55.57
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IMA
6
8 2 52.79
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26 39 14.5
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7
6 17 14.14
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7
8 5 2.62
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25 33 49.0
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8
6 19 32.63
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8
8 7 12.20
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25 28 16.5
64100
9
6 21 51.02
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9
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10
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8 11 30.60
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11
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27 32 19.6
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64)60
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13
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14
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14
8 20 4.35
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24 62 36.5
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15
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15
8 22 12.14
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16
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27 31 59.4
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16
8 24 19.67
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24 39 49.2
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17
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27 31 29.9
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17
8 26 26.95
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24 33 15.6
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18
6 42 31.48
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27 30 52.0
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18
8 28 33.98
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24 26 35.3
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19
6 44 48.66
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27 30 5.8
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19
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24 19 48.6
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20
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27 29 11.3
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20
8 32 47.26
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24 12 55.3
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21
6 49 22.60
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27 28 8.4
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21
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24 5 65.6
74)48
22
6 51 39.34
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27 26 57.2
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22
8 36 59.50
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23 68 49.6
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23
6 53 55.92
3J(750
N.27 25 37.6
1.808
23
8 39 5.23
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N 23 61 37.3
7.366
SU]
SDXY
22.
TUESDAY
ir 24.
0
6 56 12.34
3J798
NS7 24 9.8
1.681
0
8 41 10.70
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N.23 44 18.7
7.868
1
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27 22 33.8
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1
8 43 15.91
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2
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27 20 49.7
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2
8 45 20.87
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23 29 22.8
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3
7 3 0.58
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27 18 57.4
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3
8 47 25.56
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4
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4
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5
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6
8 51 34.17
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23 6 13.2
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6
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6
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7
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7
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8
7 14 17.38
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9
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0
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9 7 58.42
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16
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17
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21 6 34.2
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20
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22
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26 18 20.6
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22
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20 38 34.9
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23
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26 13 52.7
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23
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20 29 4.7
9.548
24
1
7 49 48.73
3.1008
N.26 9 17.5
44M8
24
9 30 5.67
1.9890
N.20 19 29.2
9.684
58
APRIL, 1855.
IX.
Hour.
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Eight AK«aiioD.
Diff.
for 1 m.
DkUuUoq.
WEDNESDAY 26.
h. m.
9 30
932
934
9 36
9 38
9 39
9 41
9 43
9 45
9 47
9 49
9 51
9 53
9 55
9 57
9 59
10
10
10
10
10
10 11
10 12
10 14
5.67
4.90
3.90
2.67
1.21
59.52
57.60
55.46
53.10
50.53
47.74
44.74
41.53
38.11
34.47
30.62
26.58
22.34
17.91
13.29
8.48
3.48
58.29
52.92
.9690
1.9859
Mli
I.9TW
.9738
1.9700
1.960S
1.9095
1.9686
1.9617
1.9489
I.M47
i.M19
\sm
48
10
jnn
I.0S46
1.9916
.9189
.91M
.9190
N.20
20
20
19
19
19
19
19
18
18
18
18
18
18
17
17
17
17
17
17
16
16
16
J091 N.16
19 29.2
9 48.6
0 3.0
50 12.6
40 16.5
30 15.8
20 10.4
10 0.2
59 45.2
49 25.4
39 0.8
28 31.5
17 57.5
7 18.9
56 35.8
45 48.2
34 56.1
23 59.6
12 58.8
153.7
50 44.2
39 30.5
28 12.6
16 50.6
Dfff.
forlm.
Hour.
0
10 16
1
10 18
2
10 20
3
10 22
4
10 24
5
10 26
6
10 28
7
10 30
8
10 31
9
10 33
10
10 35
11
10 37
12
10 39
13
10 41
14
10 43
15
10 45
16
10 46
17
10 48
18
10 50
19
10 52
20
10 54
21
10 56
22
10 58
23
10 59
24
11 1
THURSDAY 26.
47.38
41.67
35.79
29.74
23.51
17.12
10.57
3.86
56.99
49.97
42.81
35.51
28.07
20.49
12.78
4.93
56.95
48.H5
40.63
32.29
23.HI
15.2H
6.61
57.83
48.96
1J009
.N.16 5 24.4
1.9039
15 53 54.1
1.9003
15 42 19.7
1.6975
15 30 41.4
1.8046
15 18 59.1
1.69)0
15 7 13.0
1.8898
14 55 23.0
1.6867
14 43 29.2
lJM-2
14 3131.7
1.8816
14 19 30.4
1.67M
14 7 25.4
1.6770
13 55 16.7
1.8747
13 43 4.5
1.8794
13 30 48.7
1.8709
13 18 29.4
].8«0
13 6 6.6
1.8W9
12 53 40.4
1.6636
12 41 10.9
1.6SI0
12 28 38.0
1.8906
12 16 1.7
1.6M0
12 3 22.1
1.636S
1150 39.3
1.8546
1137 53.4
1.8W9
1125 4.4
1.U19
Nil 12 12.2
9.064
9.719
9.803
9.687
9.900
10.060
10.181
10.919
10.999
104^79
10.480
10.596
10.005
10.089
10.767
10.978
114)60
ii.m
11.196
11308
11.888
11.408
11.471
11.886
11.605
11.079
11.787
11J09
11.805
11.996
11J90
194M
19.118
19.178
19.988
19.993
19.850
19.407
19.404
19.591
19370
19.080
18.085
19.7»
18.799
I9.M3
Rifht
Dur.
fori m
DecUnatloo.
FRIDAY 27.
h.
11
11
11
11
11
11 11
11 12
11 14
11 16
11 18
11 20
11 22
11 23
11 25
11 27
11 29
11 31
11 33
11 34
11 36
11 38
11 40
11 42
1144
•.
•.
48.96
1.6519
40.00
1.8497
30.95
13482
21.81
1.8407
12.58
1.8468
3.26
1.8439
53.86
1.8495
44.38
1.8418
34.84
13408
25.25
13893
15.60
13884
5.89
13875
56.12
13160
46.30
13867
36.43
13850
26.52
13843
16.57
13887
6.59
1388J
56.57
13897
46.52
13893
36.45
13819
26.37
13815
16.27
13813
6.16
13818
Difl:
for 1 m.
Nil 12 12.2
10 59 17.0
10 46 18.8
10 33 17.7
10 20 13.7
10 7 6.8
9 53 57.0
9 40 44.4
9 27 29.2
9 14 11.3
9 0 50.7
8 47 27.51
8 34 1.7|
8 20 33.3
8 7 2.4
7 53 29.1
7 39 53.4
7 26 15.3
7 12 34.9
6 58 52.1
6 45 7.0
6 31 19.7
6 17 30.4
N. 6 3 39.2
19308
19J943
19393
13349
184190
18.137
18.165
18339
13.977
18399
SATURDAY 28.
11 45
11 47
11 49
11 51
11 53
11 55
II 56
11 58
12 0
12 11
12 13
12 15
12 17
12 18
12 20
12 22
12 24
12 26
12 28
12 80
56.04
45.91
35.79
25.67
15.56
5.46
55.39
45.34
35.31
25.31
15.35
5.43
55.55
45.72
35.95
26.23
16.56
6.96
57.43
47.97
38.69
99.30
90.10
10.98
1.95
3319
13819
13819
13818
13315
3318
13891
3395
3330
3335
3341
3846
3856
3865
3374
3457
3479
3487
5 49 45.9|
5 35 50.6'
5 2153.2.
5 7 53.9'
4 53 52.7 <
4 39 49.8
4 25 45.2
4 1138.9
3 57 30.9,
3 43 21.2
3 29 9.9
3 14 57.0
3 0 42.7
2 46 26.9
2 32 9.7
2 17 51.2
2 3 31.5
1 49 10.5
1 34 48.3
190 24.9
1 6 0.5
051 35.1
0 37 8.6
02241.1
0 8 12.8
13.406
13.451
13.493
13335
18375
18315
18354
U399
18.799
18.706
13309
13338
13373
13307
13339
13371
14303
143S8
14303
144)99
14.190
14.146
14.n5
14.801
14.W7
14.969
14.775
14.997
14318
14338
14358
14376
14397
14.415
14.489
14.463
14.476
X.
APRIL, 1855.
50
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Aac«mioo.
Difl:
fori m.
DacUnatkm.
Diff.
forlm.
Boor.
BifftaAaCMwIoii.
war.
forlm.
Difl:
forlm.
SUNDAY 29.
MONDAY
30.
h. m. a.
•.
O f N
«
h. m. «.
•.
O f «
a
0
12 30 1.95
i3ao9
N. 0 8 12.8
14.478
0
13 15 5.05
1.9111
& 5 41 3.6
14.596
1
12 31 53.01
1.8518
& 0 6 16.2
14.490
1
13 16 59.82
14)145
5 55 35.4
14.535
2
12 33 44.18
13580
0 20 46.0
14.503
2
13 18 54.79
1.9180
6 10 6.5
14.514
3
12 35 35.46
1.8550
0 35 16.6
14.515
3
13 20 49.97
1.9916
6 24 37.0
14.503
4
12 37 26.85
1.8575
0 49 47.8
14JI35
4
13 22 45.38
isau
6 39 6.7
14.488
5
12 39 18.36
1.8500
1 4 19.6
14.585
5
13 24 41.02
1.0908
6 53 35.4
14.479
6
12 41 9.99
1.8015
1 18 52.0
14.543
6
13 26 36.89
1.9813
7 8 3.2
14.455
7
12 43 1.74
1.80SO
133 24.8
14.550
7
13 28 33.00
1.9379
7 22 30.1
14.480
8
12 44 53.62
1.8056
147 58.1
14.556
8
13 30 29.34
1.9410
7 36 55.9
14.431
9
12 46 45.64
1.8083
2 2 31.8
14.565
9
13 32 25.91
1.9449
7 51 20.6
14.408
10
12 48 37.80
1.8700
2 17 5.8
14.570
10
13 34 22.71
1*9480
8 5 44.0
8 20 6.2
14J83
11
12 50 30.10
1.8798
2 3140.1
14.573
11
13 36 19.76
1.9083
14J60
12
12 52 22.54
1.8758
2 46 14.6
14J77
12
13 38 17.07
1.9075
8 34 27.2
14.388
13
12 54 15.14
1.8780
3 0 49.3
14.578
13
13 40 14.65
1.9019
8 48 46.7
14.813
14
12 56 7.90
1.8800
3 15 24.0
14JI78
14
13 42 12.49
1.9663
9 3 4.7
14.988
15
12 58 0.82
1.8883
3 29 58.7
14.580
15
13 44 10.60
1.9707
9 17 21.2
14.963
16
12 59 53.90
1.8800
3 44 33.5
14.560
16
13 46 8.98
14n53
9 3136.1
14.383
17
13 1 47.15
1.8800
3 59 8.2
14.W7
17
13 48 7.64
1.9799
9 45 49.1
14J903
18
13 3 40.57
1.8090
4 13 42.7
14.573
18
13 50 6.57
1.9845
10 0 0.5
14.173
19
13 5 34.18
1.8050
4 28 17.0
14.570
19
13 52 5.78
1.98B3
10 14 10.0
14.143
20
13 7 27.97
1.8080
4 42 51.0
14.565
20
13 54 5.28
1.9943
10 28 17.6
14.110
21
13 9 21.94
1.9019
4 57 24.8
14.560
21
13 56 5.08
1.9991
10 42 23.1
144n6
22
13 11 16.11
1.0045
5 11 58.2
14.553
22
13 58 5.17
3.0040
10 56 26.5
14.040
23
13 13 10.48
1.0078
' 6 26 31.2
14.545
23
14 0 5.56
94)000
11 10 27.8
144)06
24
13 15 5.05
14)111
& 5 41 3.6
14.536
24
14 2 6.25
94)143
all 24 26.9
13.964
PHASES OF THE MOON.
Pay. h.
m
O Full Moon, 2 2
28.9
<C Last Quarter, 9 9
36.5
# New Moon, 16 3
4.9
^ First Quarter, 23 17
57.6
Day.
h.
<C Perigee, 12
18.5
<C Apogee, 24
18.0
60
APRIL, 1855.
XI.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1^^
Sur'aNama 1
P. L.
P.L.
P.L.
P.L.
and
Noon.
of
nih.
of
Vlh.
of
IXh.
of
Position.
Diff.
Diff.
DIff
Diff.
1 1
Pollux
W.
O 1 M
67 4 54
9883
O 1 M
68 37 35
9874
0 1 N
70 10 27
9666
O 1 H
71 43 31
9866
1
Reguloa
W.
30 52 10
2931
32 23 50
9017
33 55 47
9906
35 28 0
9894
Antares
E.
69 36 57
3884
68 4 18
9876
66 31 28
9867
64 58 27
9658
2
Pollux
W.
79 31 60
3800
81 6 6
9800
82 40 33
3701
84 15 13
9789
Regulus
W.
43 12 47
SSSft
44 46 29
9896
46 20 24
9816
47 54 33
9804
Anures
E.
67 10 24
3813
56 36 12
9803
54 1 48
9704
52 27 13
3786
3
Pollux
W.
02 11 36
7m
93 47 30
9796
95 23 35
3718
96 69 61
3700
Regulos
W.
66 48 43
3768
67 24 13
9748
68 59 56
3738
60 35 52
3738
Anures
E.
44 31 19
9741
42 55 33
3731
41 19 36
3793
39 43 28
3716
a Aquils
E.
94 28 6
8670
93 8 59
S666
91 49 37
8646
90 30 9
8686
4
ReguluB
W.
68 38 40
30T7
70 16 61
9666
71 53 14
9666
73 30 60
3640
Spica
W.
14 62 29
9804
16 26 52
3n9
18 1 57
3744
19 37 39
3710
Antares
E.
31 39 64
3676
30 2 36
9667
28 25 12
9660
26 47 39
3666
a Aquilc
E.
83 60 11
8610
82 29 58
8607
81 9 42
8606
79 49 86
8606
Jupiter
E.
107 36 40
3741
106 0 64
9731
104 24 55
3799
103 48 44
3718
5
Recall U8
W.
81 41 46
9000
83 20 33
9608
84 59 31
9600
86 38 40
3661
Spica
W.
27 42 51
9637
29 20 56
9694
30 59 18
9619
32 37 56
3600
a Aquilc
E.
73 8 20
S692
71 48 20
3683
70 28 32
3640
69 9 2
8667
Jupiter
E.
94 44 50
3367
93 7 26
9660
91 29 52
9659
89 52 7
36a
Fomalhaut E.
101 14 52
3n3
99 39 49
3763
98 4 33
9763
9629 4
3744
6
Regulus
W.
94 67 19
3640
96 37 36
9633
98 18 4
9696
99 68 43
3617
Spica
w.
40 64 54
3660
42 34 58
9640
44 15 15
9630
45 55 46
3699
a Aquile
E.
62 36 60
3070
61 19 31
8600
60 2 43
8733
58 46 31
8770
Jupiter
E.
81 40 32
3001
80 139
3fi03
78 22 34
9686
76 43 18
96n
Fomalhaut E.
88 28 38
3700
86 6158
9604
85 15 10
9687
83 38 13
9681
a Pegasi
E.
108 12 40
3041
106 41 13
9037
105 9 28
9019
103 37 25
9800
Son
E.
133 19 48
9863
131 46 42
9866
130 13 96
9846
138 39 66
9836
7
Spica
W.
64 9126
9478
66 3 11
9470
67 46 7
9461
69 37 14
9463
a Aquils
E.
69 36 39
4090
61 25 28
4008
60 16 94
4176
49 6 35
4969
Jupiter
E.
68 24 20
3580
66 44 0
9680
65 3 29
9633
63 32 48
9616
Foraalhaut E.
75 31 19
9669
73 53 34
9646
72 15 42
9641
70 37 43
9630
a Pegati
E.
96 63 7
9S41
94 19 32
9881
93 46 45
9898
91 11 46
9816
Sun •
E.
190 49 43
9706
119 16 10
9186
117 40 22
3n6
116 6 31
1706
8
Spica
W.
68 0 47
9419
69 44 4
9104
71 27 33
9306
73 11 13
3880
Antares
W.
22 737
sm
23 60 36
9416
25 33 60
9401
37 17 19
3304
a Aquils
E.
43 46 80
4870
49 40 61
6040
41 60 27
6981
40 66 39
6446
Jupiter
E.
64 66 49
9480
63 15 8
9C7S
61 33 17
9467
49 51 17
9460
Fomalhaut E.
62 27 0
9090
60 48 45
9880
69 10 31
9681
67 33 19
9689
a Pegasi
E.
83 19 30
3789
81 44 39
3770
80 9 43
3n6
78 34 43
9rn9
Sun
E.
108 7 28
9795
106 31 19
3716
104 66 1
3700
103 18 33
9700
9
Spies
W.
81 62 14
9U1
83 36 59
3M8
86 31 64
3387
87 6 69
3881
Antares
W.
35 68 3
9U1
37 49 48
3M8
39 27 45
3386
41 13 63
sno
Jupit«*r
Fomalhaa
E.
41 18 54
3490
3936 1
3194
37 53 1
9410
36 954
3417
lE.
49 22 24
9063
47 44 55
9918
46 739
9686
44 30 39
3708
o PegTisi
E.
70 39 121 «ni
69 4 6
3776
67 29 6
3780
65 54 11
3788
XII.
APRIL, 1855.
61
GREENWICH MEAN TIME.
LUNAR DISTANCES.
1^
Sur'f Name
and
PMiiioa.
Midnight.
P. L.
of
DiflT.
XVh.
P. L.
of
Dlff.
xvmh.
P. L.
of
DiflT.
XXIh.
P. L.
of
DiflF.
O f N
O 1 H
O 1 II
O 1 11
1
Pollux
W.
73 16 47
9B46
74 50 15
9837
76 23 65
9638
77 57 47
9818
Regulus
W.
37 0 27
9863
38 33 9
9669
40 6 6
3856
41 39 19
9846
Antares
E.
63 35 14
3S48
61 51 50
9839
60 18 13
9830
68 44 24
9831
S
Pollux
W.
85 50 5
am
87 25 9
9763
89 0 25
9758
90 35 54
9744
Regulus
W.
49 28 55
3798
51 3 32
9769
52 38 23
9779
54 13 26
9763
Antares
E.
50 52 26
2T76
49 17 27
9767
47 42 16
9759
46 6 53
8748
3
Pollux
W.
98 36 19
9696
100 13 0
9669
101 49 54
9681
103 27 1
9979
Regulus
W.
62 12 1
9714
63 48 22
9704
65 24 56
9696
67 141
9686
Antares
E.
38 7 8
9707
36 30 38
9698
34 63 66
9600
33 17 1
9688
a AquilflB
E.
89 10 18
8098
87 50 25
8538
86 30 26
8517
85 10 21
8518
4
Regulus
W.
75 8 38
9941
76 46 36
9639
78 24 47
9694
80 3 10
9614
Spies
W.
21 13 53
9699
22 50 34
9681
24 27 38
9665
26 6 6
9651
Antares
E.
25 9 57
9890
23 32 10
9643
21 54 14
9637
20 16 9
9699
a Aquile
E.
7829 8
3907
77 8 52
8509
75 48 38
8513
74 28 27
8615
Jupiter
E.
101 12 21
9704
99 35 46
9695
97 68 69
9687
96 22 1
9677
5
Regulus
W.
88 18 1
9573
89 57 33
9564
91 37 17
9556
93 17 13
9648
Spica
W.
34 16 50
9800
35 56 0
9579
37 36 26
9568
39 15 4
9559
a Aquilw
E.
67 49 62
3566
66 31 2
8607
65 12 35
8609
63 54 32
8649
Jupiter
E.
88 14 11
9634
8636 2
9696
84 67 43
9618
83 19 13
9610
Fomalhaul E.
94 53 22
9715
93 17 28
9796
91 41 23
9717
90 5 6
9709
6
Regulus
W.
101 39 33
9509
103 20 34
9509
105 1 46
9494
106 43 6
9485
Spica
W.
47 36 29
9619
49 17 25
9504
50 68 33
»95
52 39 63
9486
a Aquils
E.
57 30 58
3819
66 16 8
8857
56 2 5
8909
53 48 64
8964
Jupiter
E.
75 3 52
9869
73 24 15
9569
71 44 28
9553
70 4 29
9546
FomalhautE.
82 1 8
9674
80 23 53
9667
78 46 29
9661
77 8 67
9657
oPegasi
E.
102 5 5
9666
100 32 28
9874
98 69 36
9869
97 26 28
9863
Sun
E.
127 6 15
9838
125 32 23
9818
123 58 19
9811
122 24 6
9805
7
Spica
W.
61 9 33
9445
62 52 5
9436
64 34 48
9439
66 17 42
9491
a Aquila
E.
47 59 7
4359
46 53 9
4467
45 48 48
4587
44 46 12
^91
Jupiter
E.
61 41 57
9509
60 0 56
9509
68 19 44
9494
56 38 21
9497
FomalhautE. 1
68 59 41
9687
67 21 36
9634
65 43 27
9631
64 5 14
9630
aPegasi
E.
89 37 37
9607
88 3 18
980O
86 28 50
9794
84 54 14
9788
Sun
E.
114 30 9
9756
112 54 46
9760
111 19 11
9741
109 43 25
9789
8
Spica
W.
74 55 3
9889
76 39 4
9374
78 23 16
9866
80 7 40
9859
Ajitares
W.
29 1 2
9884
30 44 59
9876
32 29 8
9868
34 13 29
9359
a Aquila
E.
40 5 6
6666
39 16 31
5906
38 30 67
6384
37 48 36
6648
Jupiter
E.
48 9 6
9459
46 26 46
9446
44 44 16
3441
43 1 39
9435
Fomalhaut E.
55 54 8
9635
54 16 1
9640
62 38 0
9646
51 0 7
9653
a Pegasi
E.
76 59 39
8771
75 24 33
9770
73 49 26
9770
72 14 19
9no
Sun
E.
101 41 53
9689
100 4 59
9663
98 27 56
3675
96 50 41
9667
0
Spica
W.
88 52 14
9894
90 37 39
9816
92 23 15
9809
94 9 2
3801
Antares
W.
42 58 12
3890
44 43 42
9818
46 29 23
9306
48 15 15
9996
Jupiter
E.
34 26 43
9419
32 43 26
9410
31 0 5
9408
29 16 41
9406
Fomalhaut E.
42 54 3
9734
41 17 56
9748
.39 42 19
9777
38 7 17
9606
a Pegasi
E.
64 19 25
9794
62 44 49
9801
61 10 23
9811
69 36 10
9831
62
APRIL, 1855.
XIII.
GREENWICH MEAN
TIME.
LUNAR DISTAKCEa
5^
•1
0
Sur*f Nftine
Mad
PoailioD.
Noon.
P.L
of
Diff.
mh.
P.L.
of
Difl:
Vlh.
P.L.
of
Diff.
IXh.
P.L.
of
DiC
Sun
E.
O 1 N
95 13 17
9006
O 1 N
93 35 41
9061
O 1 II
91 67 65
9048
O 1 11
90 19 68
9886
10
Spica W.
Antares W.
Jupiter E.
Foroalhaut E.
a Pegasi E.
Sun E.
95 54 58
50 1 17
37 33 15
36 33 55
58 3 10
83 7 44
3997
39P1
9406
9845
9887
9690
97 41 3
51 47 28
25 49 49
34 59 25
56 28 30
80 28 47
»00
S385
9400
9680
9666
9601
99 37 17
53 33 49
34 6 27
33 36 53
54 65 13
78 49 41
9964
9379
94U
9949
9874
9566
101 13 40
55 30 19
33 33 11
31 55 37
53 33 31
77 10 35
9377
9979
9491
8007
9806
9678
11
Antares
a Aquil»
a Pegaai
Son
W.
W.
E.
E.
64 15 9
36 34 47
45 46 34
68 51 54
9948
0009
8087
9648
66 332
37 U 1
44 17 44
67 11 48
9388
6614
8117
9M3
67 50 3
37 51 11
43 49 55
65 31 34
9988
6180
8174
9688
69 37 41
38 36 4
4133 15
63 61 13
9990
6706
8940
9688
13
Antares
a Aquil0
a Pegasi
Sun
W.
W.
E.
E.
78 37 36
43 3 17
34 33 11
55 37 53
9310
4096
8764
9613
80 25 39
44 5 19
33 17 21
53 46 58
9906
4468
8019
9610
83 18 58
46 9 44
33 4 13
53 6 59
9904
an
4006
9607
84 3 30
46 16 31
30 64 6
60 34 65
9909
4166
4800
13
i
Antares
a Aqoils
Sun
W.
w.
E.
93 4 46
53 16 58
41 59 2
9107
8706
9A0O
94 53 18
53 33 40
40 17 49
9107
8686
9600
96 41 60
54 61 36
38 36 36
9198
8679
9601
98 30 31
66 10 41
36 66 34
9100
8616
9608
18
Sun
Pollux
Regulus
W.
E.
E.
23 49 4
59 39 23
96 746
9866
9633
9644
25 22 6
57 58 56
94 27 34
9809
9646
9610
36 64 48
56 18 60
93 47 43
9006
9804
9676
98 37 10
64 39 6
91 8 14
9018
9660
9601 1
19
Sun
Pollux
Regulus
W.
E.
E.
36 3 55
46 25 45
8356 6
9004
9667
9000
37 34 15
44 48 8
81 18 44
8010
9078
9884
39 4 16
43 10 52
79 41 43
8097
908>
9000
40 33 54
41 33 67
78 6 1
aoo
9704
7tU
90
Son
Venus
Pollux
Regulus
W.
W.
E.
E.
47 57 13
17 34 15
33 34 33
70 6 40
8194
8911
9789
9700
49 34 53
19 0 11
31 69 40
68 3159
8188
8996
9707
9806
60 63 16
30 36 60
30 36 8
66 67 38
8108
8949
9011
9890
63 19 31
31 61 10
38 60 66
66 93 36
8168
8166
9010
9886
31
Stw W.
Venus W.
Aldebaraa W.
Saturn W.
Regulus £.
59 30 30
28 53 28
24 19 8
17 48 21
57 38 1
8940
8880
8111
8096
9008
60 55 43
30 17 5
35 47 6
19 18 3
56 546
8900
88a
8100
8096
9010
63 30 48
31 40 37
37 16 16
30 47 44
64 33 48
8«7
8867
8001
8096
9090
63 45 38
33 3 33
38 43 36
33 17 36
53 3 6
sno
8080
8097
9041
33
Sun W.
Venus W.
Aldebarmo W.
Saturn W.
Regulus £.
Spica E.
70 46 22
39 55 35
36 6 13
39 44 47
45 37 31
99 37 56
8386
849B
8089
8063
8001
9088
72 9 59
41 17 30
37 34 44
31 13 55
43 57 30
97 67 33
8840
8487
8086
8066
8019
73 33 10
43 38 65
39 3 13
39 43 66
43 37 33
96 36 69
8866
8447
8087
8066
8038
8001
74 66 17
44 0 18
40 31 38
34 11 48
40 57 38
94 66 47
8366 1
0460 '
8080
8071
8004
8000
33
1
Sun W.
Venus W.
Aldebaran W.
Saturn W.
8149 36
50 44 46
47 53 51
41 34 37
8404
S407
8106
8000
83 U 38
53 6 14
49 30 55
43 3 38
8400
8800
8106
8Hn
84 33 44
69 35 35
60 48 66
44 30 44
8418
8100
8110
SM7
86 65 43
64 46 49
63 16 63
45 58 46
S4»
86U 1
8119
8110
XIV.
APRIL, 1855.
6a
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
5 .
i
9
Sur'tName
and
PbfiUoo.
Midnight.
P. L
of
DUE
XVh.
P. L.
of
Dlff.
9691
xvmh.
P. L.
of
Diff.
9614
XXIb.
P. L
of
Didi:
Sun
E.
O 1 H
88 4152
9090
O 1 II
87 03 35
O 1 1,
85 25 09
O 1 u
83 46 32
9605
10
Spica W.
Antares W.
Jupiter E.
Fomalhaut E.
a Pegasi £.
Sun E.
103 0 13
57 6 59
20 40 6
30 25 23
51 49 57
75 31 0
9971
9906
9481
a084
9991
9979
104 46 55
58 53 48
18 57 15
28 56 54
50 18 1
73 51 26
9966
9900
9447
8178
9050
9566
106 33 44
60 40 47
17 14 47
27 30 19
48 46 50
72 11 44
9960
99ft4
9471
3901
9085
9550
108 20 42
62 27 54
15 32 53
26 5 57
47 16 18
70 31 53
9956
9940
9500
3498
8098
9558
11
Antares
a AquU»
a Pegasi
Sun
W.
W.
E.
E.
71 25 26
39 22 28
39 57 53
62 10 45
9995
fiWl
8316
969B
73 13 17
40 13 11
38 34 0
60 30 11
9390
5941
8409
9593
75 1 15
41 7 2
37 11 46
58 49 30
9916
6019
3503
9530
76 49 18
42 3 48
35 51 25
57 8 44
9918
4800
8610
9510
12
Antares
a Aquils
a Pegasi
Sun
W.
W.
E.
E.
85 50 45
47 25 0
29 47 22
48 43 47
9900
4070
4567
9508
87 39 12
48 35 31
28 44 29
47 2 38
9198
3964
4873
9502
89 27 42
49 47 46
27 45 52
45 21 28
9107
8868
5940
9501
91 16 14
51 1 38
26 52 0
43 40 16
9107
3783
5088
9400
13
Antares
a Aquil»
Sun
W.
W
E.
100 18 51
57 30 48
35 14 15
9^»0
8468
9504
102 7 18
58 51 53
33 33 8
9904
3417
9506
103 55 40
60 13 50
31 52 3
9907
3375
9510
105 43 57
61 36 35
30 11 3
9910
3380
9513
18
Sun
Pollux
Regulus
W.
E.
E.
29 59 12
52 59 44
8929 7
9099
9505
9006
31 30 54
51 20 42
87 50 20
9046
9611
9691
33 2 15
49 42 1
86 11 54
9069
9096
9687
34 33 15
48 3 42
84 33 49
9078
9643
9658
19
Sun
Pollux
Regulus
W.
E.
E.
49 3 13
39 57 23
76 28 40
8060
9719
9798
43 32 12
38 21 9
74 52 39
3075
9785
9745
45 0 52
36 45 16
73 16 59
3001
9751
9761
46 29 12
35 9 44
71 41 40
8108
9706
9n5
20
Sun
Venus
Pollux
Regulus
W.
W.
E.
E.
53 46 8
23 16 13
27 17 0
63 49 53
8188
8971
9M1
9848
55 12 37
24 40 58
25 43 25
62 16 28
8198
3987
9856
9808
56 38 48
26 6 25
24 10 10
60 43 22
8913
3809
9879
9876
58 4 42
27 29 34
22 37 15
59 10 33
8996
3315
9886
9800
21
Sun W.
Venus W.
Aldebaran W.
Saturn W.
Regulus E.
65 10 14
34 26 25
30 12 3
23 47 5
51 30 40
8991
8861
8069
8000
9054
66 34 36
36 49 3
31 40 34
25 16 40
49 59 29
8309
8398
8081
8085
9067
67 58 45
37 11 27
33 9 7
26 46 9
48 28 35
8314
3406
3081
3M0
9070
69 22 40
38 33 37
34 37 40
28 15 32
46 57 56
8395
8410
3081
8047
9000
22
Sun W.
Venus W.
AWebaran W.
Saturn W.
Regulus E.
Spica E.
76 19 13
45 21 31
42 0 0
35 40 33
39 28 8
93 26 46
8373
8406
8068
8078
3044
8018
77 42 0
46 42 33
43 28 18
37 9 12
37 58 50
9156 55
8381
3474
3006
3089
8058
8096
79 4 38
48 3 26
44 56 33
38 37 44
36 29 43
90 27 13
8300
3489
8000
8087
3063
3089
80 27 6
49 24 10
46 24 44
40 6 9
35 0 48
88 57 40
8307
3480
8109
8003
8079
8030
23
Sun W.
Venus W.
Aldebaran W.
Saturn W.
87 17 35
56 558
53 44 47
47 26 42
8495
8519
8114
3114
88 39 23
57 26 01
55 12 40
48 54 34
8431
8598
8116
8118
90 1 5
58 46 0
56 40 30
50 22 22
3433
3597
:1I8
8190
91 22 44
60 5 54
58 8 18
51 50 7
8436
8580
8110
8193
64
APRIL, 1855.
XV.
GREENWICH MEAN TIME.
LUNAR DISTANCES. 1
1 .
Star** NaoM
P. L.
P. L.
P.L.
P. L.
"1
and
Noon.
of
nih.
of
Vlh.
of
IXh.
of
11
PMitioo.
Diff.
Diff.
Diff
Diff
O 1 u
O 1 II
O 1 M
O 1 H
23
Regulus
E.
33 32 6
3084
32 3 37
8004
30 35 20
8106
29 7 16
8116
Spica
E.
87 28 15
8046
85 58 58
8063
84 29 49
8066
83 0 46
8061
24
Son
W.
92 44 20
S4S8
94 6 53
8441
95 27 23
8443
96 48 52
8448
Venus
W.
61 25 45
SA33
62 45 33
3685
64 5 19
8686
65 25 4
8686
Aldebaran
W.
59 36 4
3119
61 3 50
8119
62 31 36
8110
63 59 22
8110
Saturn
W.
53 17 49
sm
54 45 29
8136
66 13 7
3137
67 40 44
8138
Pollux
W.
15 14 46
8006
16 43 1
3003
18 U 19
8001
19 39 39
8080
Spica
E.
75 36 50
8078
74 8 14
8081
72 39 41
8083
71 11 9
8088
25
Sun
W.
103 36 10
8440
104 57 41
8488
106 19 16
8486
107 40 52
8488
Venus
W.
72 3 42
8A85
73 23 28
8681
74 43 18
8690
76 3 10
8697
Aldebaran W. |
71 18 22
81 li
72 46 17
8110
74 14 14
8107
75 42 15
8104
Saturn
W.
64 58 51
8I3S
66 26 33
8131
67 54 17
8118
69 22 5
3114
Pollux
W.
37 1 56
8078
28 30 33
8076
29 59 13
8078
31 27 56
8071
Spica
E.
63 48 43
8081
62 20 10
8080
60 61 36
8078
60 23 0
xfn
Antares
E.
109 40 40
3073
108 1166
8071
106 43 11
8060
105 14 24
8067
26
Sun
W.
114 29 59
8409
115 52 5
8408
117 14 18
8807
118 36 38
8880
Aldebaran W.|
83 3 33
8081
84 32 6
8076
86 0 47
8060
87 29 35
8068
Venua
W.
82 43 36
8W3
84 368
8400
85 24 26
3400
86 45 1
8483
Saturn
W.
76 42 9
8093
78 10 27
8087
79 38 52
8089
81 7 24
8076
Pollux
W.
38 52 40
8046
40 21 66
8040
41 51 19
8084
43 20 50
8097
Spica
E.
51 59 9
SOW
50 30 8
8068
49 1 1
8048
47 31 48
8043
Antarea
E.
97 49 23
8046
96 20 6
80W
94 60 41
8088
03 21 9
8096 1
27
Sun
W.
125 30 28
»49
126 53 43
8840
128 17 8
8880
129 40 45
8890
Aldebaran
W.
94 55 40
8096
96 25 20
8017
97 55 12
8000
99 25 14
8001
Venus
W.
93 30 8
8410
94 51 39
oai
96 13 21
8433
97 35 13
84II
Saturn
W.
88 32 11
8080
90 1 36
8080
91 31 12
8030
93 1 0
8011
Pollux
W.
50 50 32
SOOO
52 20 58
3981
63 51 35
3071
56 22 24
3089
Regulua
W.
15 1 39
8189
16 28 6
8147
17 55 19
8118
19 23 13
8088
Spica
E.
40 3 53
8013
38 33 55
8006
37 3 48
3008
35 33 33
3001
Aotaree
E.
85 51 23
3060
84 20 57
9081
82 60 20
3078
81 19 33
9064 1
128
Venns
W.
104 27 33
88«
105 50 39
8346
107 13 59
8889
108 37 33
8890
,
Saturn
W.
100 32 56
3909
102 3 57
3061
103 35 11
3041
105 6 38
9099
I
Pollux
W.
62 59 24
3018
64 31 26
3003
66 3 42
9801
67 30 12
3880
1
Re(;ulu8
w.
26 50 27
son
28 21 8
3061
29 52 10
90U
31 23 33
9098
Spica
E.
28 0 12
3000
26 29 8
3064
24 57 58
3010
23 26 43
9046
AnUrea
E.
73 42 40
3014
72 10 30
3004
70 38 25
3808
69 5 57
9881
a Aquila
E.
117 67 2
4000
116 46 1
8008
115 34 19
ooao
114 21 59
8091
29
Pollux
W.
76 22 24
3899
76 66 23
3810
78 30 38
3798
80 6 8
9786
Regius
W.
30 5 19
3864
40 38 37
3840
42 12 13
9897
43 40 6
9819
Antares
E.
61 19 59
3836
59 46 3
3818
58 11 52
3800
66 37 24
9786
1
a Aquila
E.
106 U 25
8761
106 55 42
8784
106 39 31
8708
104 22 52
8609
;30
Pollux
W.
88 1 46
f7»4
89 37 64
9713
91 14 18
3600
92 50 69
9887
Regius
W.
51 40 4
3744
63 15 45
9781
54 51 44
3718
66 28 0
9706
Antares
E.
48 41 11
3738
47 5 8
9716
45 28 60
9704
43 52 16
9006
1
1
a Aquils
E.
97 63 19
8676
96 34 18
3697
1
95 14 57
3641
93 55 18 8696
XVI.
APRIL, 1855.
65
GREENWICH MEAN TIME.
LUNAB DISTANCES.
u
Sur'aNama
P. L.
P. L.
P. L.
P. L.
o 5
and
Midnight.
of
XVh.
of
xvnih.
of
XXIh.
of
^
Pteitloo.
DidT.
Diff.
Diff.
Diff.
33
Regfulus
E.
O 1 u
27 39 25
81S5
O 1 N
26 11 46
8187
o 1 n
24 44 21
8160
O 1 M
23 17 12
8168
Spica
E.
81 31 49
ao«6
80 2 57
8070
78 34 11
8078
77 5 28
8076
24
Sun
W.
'98 10 20
8444
99 31 47
8444
100 53 14
8448
102 14 42
8448
Venus
W.
66 44 48
8M7
68 4 31
8587
69 24 14
8637
70 43 57
8686
Aldebann W.|
65 27 8
8119
66 54 54
8119
68 22 41
8117
69 50 30
8114
Saturn
W.
59 8 20
8199
60 35 55
8137
62 3 32
8196
63 31 11
8194
Pollux
W.
21 8 2
8087
22 36 27
8086
24 4 54
8084
25 33 23
8081
Spioa
E.
69 42 39
8066
68 14 11
8084
66 45 43
8068
65 17 13
8088
25
Sun
W.
109 2 31
8499
110 24 15
8484
111 46 4
8490
113 7 58
84U
Venus
W.
77 23 4
8693
78 43 4
8616
80 3 10
8618
81 23 20
8607
Aldebarmo W.|
77 10 20
8100
78 38 30
8096
80 6 45
8091
81 35 6
8066
Saturn
W.
70 49 57
8113
72 17 52
8108
73 45 52
8104
75 13 57
8008
PoUux
W.
32 56 42
8067
34 25 32
8069
35 54 28
8060
37 23 31
8069
Spica
E.
57 54 22
8078
56 25 41
8070
54 56 55
8066
53 28 4
8068
Ajitares
E.
103 45 34
8063
102 16 39
8069
100 47 39
8066
99 18 34
8060
26
Sun
W.
119 59 7
8883
121 21 43
8876
122 44 28
8866
124 7 23
8868
Aldebaran W.|
88 58 30
8066
90 27 34
8046
9156 47
8041
93 26 9
8084
Venus
W.
88 5 45
8476
89 26 37
UBl
90 47 38
8469
92 8 48
8460
Saturn
W.
8236 4
8068
84 4 53
8061
85 33 50
80M
87 2 56
8047
Pollux
w.
44 50 29
8031
46 20 16
8014
47 50 12
8006
49 20 17
9008
Spica
E.
46 2 27
8087
44 33 0
8081
43 3 26
8096
41 33 44
8018
Antares
E.
915129
8090
90 2141
80U
88 5144
8006
87 21 38
9998
27
Sun
W.
131 4 33
8810
132 28 33
8800
133 52 45
8969
135 17 9
89n
Aldebaran W.|
100 55 26
9991
102 25 50
9989
103 56 25
9978
105 27 12
9968
Venus
W.
98 57 17
8401
100 19 32
3891
101 41 59
8379
103 4 39
8867
Saturn
W.
94 30 59
8001
96 1 10
9093
97 31 33
9989
99 2 8
9979
Pollux
W.
56 53 24
9064
58 24 35
9944
59 55 58
9984
6127 34
9938
Regulus
W.
20 51 43
8067
22 20 45
8086
23 50 14
8016
25 20 8
9996
Spica
E.
34 3 9
9066
32 32 37
9978
31 1 57
9979
29 31 9
S966
Antares
E.
79 48 35
9964
78 17 24
9946
76 46 2
9986
75 14 28
9994
28
Venus
W.
110 121
8806
111 25 23
8994
112 49 41
8989
114 14 13
8969
Saturn
W.
106 38 20
9919
108 10 15
9907
109 42 25
9896
HI 14 50
9883
Pollux
W.
69 8 57
9869
70 41 56
9867
72 15 10
9846
73 48 39
9888
Regulus
W.
32 55 16
9913
34 27 19
9896
35 59 40
9888
37 32 20
9869
Spica
E.
21 55 23
9946
20 24 2
9048
18 52 44
9968
17 21 32
9969
Antares
E.
67 33 14
9870
66 0 17
9869
64 27 6
9848
62 53 40
9886
a Aquil»
E.
113 9 1
8866
11155 27
8668
110 41 19
8890
109 26 38
8790
29
Pollux
W.
81 39 55
9778
83 14 58
9760
84 50 18
9748
86 25 54
9786
Regulus
W.
45 20 18
9799
46 54 47
9785
48 29 35
9T71
50 4 41
9768
Anures
E.
55 2 41
9776
53 27 42
9766
51 52 28
9768
50 16 58
9740
a Aquils
E.
103 5 46
8669
101 48 15
8686
100 30 19
8614
99 12 0
8694
30
Pollux
W.
94 27 56
9676
96 5 10
9663
97 42 41
9660
99 20 28
9688
Regulus
W.
58 4 33
9699
59 41 23
9679
61 18 31
9666
62 55 56
9664
Antares
E.
42 15 27
9681
40 38 21
9669
39 0 59
9667
37 23 22
9647
a Aquil»
E.
92 35 21
8610
91 15 8
8407
89 54 41
8486
88 34 0
8476
66
MAY, 1855.
I.
AT GREENWICH APPARENT NOON.
Tues.
Wed.
Thur.
Fri.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
Sun,
Mon.
Tues.
!wed.
Thur.
Fri.
I
Sat.
Sun.
Mod.
Tues.
Wed.
Thur.
i
I Fri.
■ISat
•Sim.
Mon. 28
Tues. 29
Wed. |30
Thur. 31
Fri. 32
THE SUN'S
Jipportnt
Ri^ AaccfMion.
2 32 23.73
2 36 12.66
2 40 2.13
2 43 52.16
2 47 42.77
2 51 33.95
2 55 25.72
2 59 18.08
3 3 11.02
7 4.56
10 58.69
14 53.42
3 18 48.74
3 22 44.64
3 26 41.13
3 30 38.20
3 34 35.84
3 38 34.04
3 42 32.79
3 46 32.09
Diff. for
1 hour.
9.530
9.662
9.676
9.698
9.622
9.646
9.670
9.694
9.719
9^744
9.769
9.798
9.817
9.841
9.866
9.912
9.936
9.968
9.980
3 50 31.92 10.002
3 54 32.28 io.024
3 58 33.14 10.046
4 2 34.51 10.067
4 6 36.38
4 10 38.73
4 14 41.56
4 18 44.86
4 22 48.61
4 26 52.80
4 30 57.44
4 35 2.50
10.087
10.107
10.127
10.147
10.166
10.184
10.202
10.219
Apportnt
DecUnaiioru
N.14 59 2^.3
15 17 31.7
15 35 22.0
15 52 57.0
16 10 16.3
16 27 19.6
16
17
17
44 6.7
0 37.3
16 51.0
17 32 47.6
17 48 26.7
18 3 48.1
DUR
for
Ihour.
46.66
44.93
44.29
43.64
42.97
42.30
41.61
40.92
40.21
Semi.
1^ 54.22
15 53.98
15 53.75
15 53.52
15 53.29
15 53.06
15 52.83
15 52.60
15 52.38
39.60 15 52.16
38.76! 15 51.94
38.01 15 51.73
18 18 51.4 37.26 15 51.52
18 33 36.3 36.48 15 51.32
18 48 2.5 35.69 15 51.12
19 2 9.7
19 15 57.6
19 29 25.9
34.90
34.09
33.27
19 42 34.4 32.44
19 55 22.8 31.69
20 7 50.7 30.74
20 19 57.9 29.87
20 31 44.2;28.99
20 43 9.3:28.10
Nora. — Mean TUm of lU SemiduuMUr pawl
21 25 14.0
21 34 50.1
21 44 3.8
21 52 55.0
N52 1 23.4
15 50.92
15 50.73
15 50.54
15 50.36
15 50.18
15 50.01
15 49.84
15 49.68
15 49.52
20 54 13.i;27.20 15 49.36
21 4 55.3
21 15 15.7
26.29 15 49.21
25.38 15 49.06
24.47
23.54
22.61
21.67
15 48.91
15 48.76
15 48.62
15 48.48
20.71 15 48.34
Sidered
Time
of the
Semidi-
eroeter
pMiiDg
the
Merid.
65.99
66.07
66.15
66.23
66.31
66.39
66.47
66.55
66.63
66.71
66.80
66.88
66.96
67.04
67.12
67.20
67.28
67.36
67.44
67.52
67.59
67.67
67.74
67.82
67.89
67.96
68.03
68.10
68.16
68.22
68.28
68.34
Eqnetkmof
Time,
to be
Bubtracted
from
2 59.59
3 7JW)
DMT.
for
ihour.
0.327
0.805
3 14.27 0.282
3 20.78
3 26.71
3 32.07
3 36.85
3 41.04
3 44.63
0.268
0.234
0.210
0.186
0.162
0.187
3 47.64 0.112
3 50.07 ;o.087
3 51.90;o.063
3 53.13 0.039
3 53.78 0.015
3 53.84:0.009
3 53.33 0.088
3 52.25 0.056
0.079
3 50.61
3 48.42 0.102
3 45.69 0.125
3 42.42 0.147
3 38.63 0.168
3 34.34;0.189
3 29.M 0.810
3 24.24
3 18.46
3 12.21
0.281
0.861
0.271
3 5.49 0.290!
2 58.32 0.809 '
2 50.71 'o.827,
2 42.650.845
2 34.14 0.868
Sorm, — Mean Time of the Semiduuneur peeetof rofty be found by eubUBCiinf On. Id from the Sidereel Time.
II.
MAY, 1855.
67
GREENWICH MEAN TIME.
i
THE
MOON'S
HorixoDtalPanlUz.
Meridian PMMge.
a
Noon.
Bfldniffat.
Nooa.
Diflf. for
1 hour.
1.44
1.28
Midnight.
DiflT. for
1 hour.
Dinr. for
Ihour.
Agt.
I
2
3
15 30.0
15 39.6
15 48.6
15 34.8
15 44.2
15 52.6
56 45.6
57 21.1
57 54.0
57 S.5
57 38.0
58 8.7
-m''.48
1.37
1.17
h. m.
11 48.9
12 38.5
13 32.2
m.
1.98
2.15
2.33
d.
14.9
15.9
16.9
4
5
6
15 56.2
16 2.4
16 7.0
15 59.5
16 4.9
16 8.7
58 22.0
58 44.5
59 1.1
1.06
0.82
0.56
58 34.0
58 53.6
59 7.0
0.94
0.69
0.43
14 30.4
15 31.6
16 33.5
2.45
2.56
2.54
17.9
18.9
19.9
7
8
9
16 9.9
16 11.2
16 11.2
16 10.7
16 11.3
16 10.8
59 11.4
59 16.5
59 16.6
0.32
-H).10
—0.09
59 14.6
59 17.1
59 14.9
-H).22
—0.00
0.19
17 33.7
18 3a7
19 23.5
2.43
2.28
2.14
20.9
21.9
22.9
10
11
12
16 10.0
16 7.3
16 3.3
16 8.8
16 5.5
16 0.6
59 12.0
59 2.4
58 47.4
0.29
0.61
0.75
59 7.9
58 55.6
58 37.7
0.40
0.63
0.87
20 13.4
21 1.3
21 48.4
2.03
1.98
1.97
23.9
24.9
25.9
13
14
15
15 57.6
15 50.3
15 41.8
15 54.1
15 46.2
15 37.2
58 26.6
58 0.3
57 29.2
0.98
1.20
1.86
58 14.1
57 45.2
57 12.4
1.09
1.29
1.42
22 35.9
23 24.9
6
2.01
2.08
26.9
27.9
28.9
16
17
18
15 32.4
15 22.9
15 13.3
15 27.7
15 18.1
15 8.8
56 55.0
56 19.3
55 44.5
1.47
1.48
1.40
56 37.1
56 1.7
55 28.2
1.49
1.45
1.32
0 15.8
1 8.6
2 2.7
2.16
2.22
2 25
0.4
1.4
2.4
19
20
21
15 4.7
14 57.5
14 52.2
15 0.9
14 54.5
14 50.6
55 13.0
54 46.7
54 27.6
1.22
0.96
0.62
M 59.0
54 36.1
54 21.4
1.10
0.80
0.43
2 56.6
3 49.0
4 38.9
2.21
2.13
2.01
3.4
4.4
5.4
22
23
24
14 49.5
14 49.3
14 52.0
14 49.1
14 50.3
14 54.4
54 17.4
54 16.8
54 26.7
—0.23
-M).18
0.62
54 15.8
54 20.5
54 35.4
—0.03
-H).41
0.82
5 25.7
6 9.9
6 52.1
1.89
1.80
1.73
6.4
7.4
8.4
25
26
27
14 57.4
15 5.4
15 15.4
15 1.1
15 10.2
15 21.1
54 46.6
55 15.7
55 52.3
1.01
1.38
1.66
55 0.1
55 33.1
56 12.9
1.20
1.53
1.76
7 33.0
8 13.8
8 55.8
1.70
1.72
1.80
9.4
10.4
11.4
28
29
30
31
15 27.0
15 39.1
15 51.0
16 1.9
15 32.9
15 45.2
15 56.6
16 6.6
56 34.4
57 ia7
58 2.7
58 42.5
1.81
1.87
1.76
1.51
56 56.4
57 41.0
58 23.4
58 59.7
1.85
1.83
1.66
1.34
9 40.2
10 28.1
11 20.6
12 18.3
1.92
2.09
2.29
2.49
12.4
13.4
14.4
15.4
32
16 10.7
16 14.2
59 14.8
4-1.15
59 27.3
-+-0.93
13 20.2
2.61
16.4
68
MAY, 1855.
111.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Dior.
forlm.
DecUoatlon.
Diff.
ibrlm.
Hour.
Right AKaorioo.
Did:
forlm.
DeclinaUoa.
DiflT.
f>rlm.
TUESDAY
1.
THURSDAY 3.
'
h. m. •.
■L
O 1 N
If
h. in. «.
1.
O 1 N
. i
i 0
14 2 6.25
3UI149
S 11 24 26.9
1S.964
0
15 45 45.61
9J915
&21 23 29.4
10400 ;
1 1
14 4 7.25
ojom
1138 23.7
1S.934
1
15 48 5.11
38986
21 33 50.0
10.387 1
! 2
14 6 8.57
%ffM
1152 18.0
18.889
2
15 50 25.04
3.8857
2144 3.7
10.173 I
3
14 8 10.20
3.0306
12 6 9.7
18.8U
3
15 52 46.40
3.8438
21 54 10.5
104154 j
4
14 10 12.14
3jOS51
12 19 58.9
18.796
4
15 65 6.18
3.8496
22 4 10.3
9.995 ;
5
14 12 14.41
34M0A
12 33 45.4
18.768
5
15 57 27.38
3.8507
22 14 2.9
9.815 <
6
14 14 17.01
34)461
12 47 29.2
18.707
6
15 59 49.00
34687
22 23 48.1
94M
7
14 16 19.95
3.0518
13 1 10.2
184100
•7
16 2 11.03
34707
22 33 26.0
9470
8
14 18 23.22
3.0675
13 14 48.3
18.613
8
16 4 33.48
34776
22 42 56.5
94a
9
14 20 26.83
34mi
13 28 23.4
18.503
9
16 6 56.35
94645
22 62 19.5
9490
10
14 22 30.79
%om
13 41 55.5
18.500
10
16 9 19.63
34918
23 134.8
9.193
11
14 24 35.09
340745
13 55 24.4
18.455
11
16 11 43.32
34981
23 10 42.4
94»9
12
14 26 39.73
34)603
14 8 50.2
18.401
12
16 14 7.41
34049
23 19 42.2
8.991
13
14 28 44.73
%oeBi
14 22 12.6
18.845
13
16 16 31.91
3.4117
23 28 34.1
8.798
14
14 30 50.09
%om
14 35 31.6
18.387
14
16 18 56.82
3-4186
23 87 18.0
8468
15
14 32 55.82
340B4
14 48 47.1
184»6
15
16 21 22.15
9-4354
23 45^3.7
8437
16
14 35 1.91
3. 1045
15 159.0
18.106
16
16 23 47.88
3-4833
23 64 21.1
8488
17
14 37 8.37
3.1100
15 15 7.3
18-107
17
16 26 14.01
34886
24 2 40.2
8.350
18
14 39 15.20
3.1171
15 28 11.8
184MS
18
16 28 40.54
34458
24 10 61.0
8.110
19
14 41 22.41
3.13S3
15 41 12.4
i%vn
19
16 31 7.46
34519
24 18 53.3
7.967
20
14 43 30.00
3.1395
15 54 9.0
13^11
20
16 33 34.77
94665
24 26 47.0
7498
21
14 45 37.96
3.1869
16 7 1.7
13-644
21
16 36 2.48
34650
24 34 32.0
74n
22
14 47 46.30
3.1433
16 19 50.3
13-775
22
16 38 30.58
34714
24 42 8.2
7480 !
23
14 49 55.02
WED
3.1489
NESD
S.16 32 34.6
AY 2.
13-709
23
16 40 69.05
FF
347T7
IIDAY
&24 49 36.5
4.
7469 ■
t
0
14 52 4.14
3.155S
S 16 45 14.6
13.080
0
16 43 27.90
34040
a24 66 63.9
7.399 !
1
14 54 13.66
3.16IB
16 57 50.3
13.550
1
16 45 57.13
34903
26 4 3.3
74)60
2
14 56 23.58
3.10B3
17 10 21.4
13.480
2
16 48 26.73
9490S
26 11 3.6
6437
3
14 58 33.80
3.17«)
17 22 47.9
13.403
3
16 50 56.68
3.W3
26 17 64.4
6.773
4
15 0 44.59
3.1617
17 35 9.7
13.838
4
16 53 26.99
34083
26 24 36.0
6416
5
15 2 55.69
3.1863
17 47 26.7
13.348
5
16 55 57.65
34140
26 31 8.3
6460 !
6
15 5 7.19
3.1930
17 59 38.9
13.161
6
16 58 28.66
341'j7
25 37 31.3
6409 <
7
15 7 19.10
3.3016
18 1146.1
i3.on
7
17 I 0.01
34353
26 43 44.8
6.144
1 8
15 9 31.41
3.3067
18 23 48.1
11.993
8
17 3 31.69
34307
26 49 48.6
5469
0
15 11 44.14
^3157
18 35 45.0
11.905
9
17 6 3.70
34909
26 55 42.7
5410
. 10
15 13 57.29
^3W7
18 47 36.6
11.810
10
17 8 36.04
94415
96 126.9
5456 >
1 11
15 16 10.86
%n»
18 59 22.9
11.735
11
17 11 8.69
94407
26 7 1.3
5.493 ;
[ 13
15 18 24.83
3.310
19 11 3.6
11.683
12
17 13 41.65
945n
26 12 25.9
5439
13
15 20 39.21
9.3434
19 22 38.6
11.586
13
17 16 14.91
94507
26 17 40.6
5.109 ,
14
15 22 54.02
3i3S09
19 34 8.1
11.4a
14
17 18 48.47
94617
26 22 45.1
4499 ;
15
15 25 9.26
^3575
19 45 31.9
11040
15
17 21 22.32
94665
26 27 39.6
4499 !
1 1^
15 27 24.93
3.3546
19 56 49.7
n.9«7
16
17 23 56.44
94713
26 32 23.6
4451
! 17
15 29 41.02
3.3717
20 8 1.5
11.147
17
17 26 30 84
94797
26 36 57.5
4400 •
I 18
15 31 57.54
3.3788
20 19 7.4
114M6
18
17 29 5.52
94001
26 4121.2
4400
1 i^
15 34 14.48
3.3800
20 30 7.1
10.949
19
17 31 40.47
948a
96 45 34.6
4.195 !
1 20
15 36 31.85
3.3931
20 41 0.4
10.017
20
17 34 15.67
94085
96 49 37.4
8469 1
21
15 38 49.65
3J0O2
20 5147.3
10.781
21
17 36 51.10
94035
96 63 29.7
8.794
22
15 41 7.88
SJOTTt
21 2 27.8
10.631
22
17 39 26.76
9-5063
96 57 11.4
3.07
23
15 43 26.53
3.3144
21 13 1.9
10.513
23
17 42 2.65
94000
97 0 42.5
8480
24
15 45 45.61
3.3315
st21 23 29.4
10.400
24
17 44 38.76
MM
S.27 4 3.0
8.9n
IV.
MAY, 1855.
69
GREENWICH
MEAN TIME.
THE MOON'S BIGHT
ASCENSION AND DECLINATION.
liour.
Right AMcmarioa.
mm
forlm.
OeclinatioD.
Difl:
Hour.
Right Ascension.
Diir.
forlm.
Declination.
Diff
forlm.
SATl
[JRDA
Y 5.
MONDAY
7.
h. m. •.
s.
O 1 M
H
h. m. s.
•.
O 1 «
0
17 44 38.76
3.0086
a27 4 3.0
8.35S
0
19 50 47.55
3.5098
a26 7 35.1
5.574
1
17 47 15.07
3.6070
27 7 12.8
8.075
1
19 53 22.99
3.9686
26 155.4
5.748
2
17 49 51.59
3.6108
27 10 11.9
3.805
2
19 55 58.19
3.5648
25 56 5.4
5J^2I
3
17 52 28.31
3.6135
27 13 0.1
3.714
3
19 58 33.16
3.5808
25 50 5.0
6.003
4
17 55 5.21
3.6165
27 15 37.4
3.588
4
20 1 7.88
9.5767
25 43 54.3
6.965
5
17 57 42.29
3.6188
27 18 3.9
3.853
5
20 3 42.35
34725
25 37 33.3
6.435
6
18 0 19.54
3.6330
27 20 19.5
3.170
6
20 6 16.56
3.5689
25 31 2.2
6404
7
18 2 56.95
3.6346
27 22 24.2
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7
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8
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8
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0
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9
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34543
25 10 28.6
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10
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25 3 17.4
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11
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27 28 52.2
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11
20 19 3.50
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24 55 56.3
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12
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24 48 25.4
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13
18 18 44.17
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27 30 59.3
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13
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3.5350
24 40 44.9
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14
18 21 22.41
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14
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24 32 54.8
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16
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16
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24 16 46.1
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17
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27 32 59.6
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17
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24 8 27.6
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18
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27 33 1.7
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20
18 37 13.17
341480
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20
20 41 45.25
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23 42 36.7
6413
21
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27 32 0.8
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21
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23 33 41.5
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22
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27 31 17.8
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22
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9.1870
23 24 37.3
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23
18 45 8.96
34481
&27 30 23.6
0.997
23
20 49 13.38
3.4813
S.23 15 24.2
94W
SU
NDAl
' 6.
TVI
:SDAli
1
0
18 47 47.56
3.6481
S 27 29 18.2
1.164
0
20 51 42.07
3.4756
S.23 6 2.4
9.488
1
18 50 26.15
3.6430
27 28 1.6
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1
20 54 10.43
3.4699
22 5B 31.8
9403
2
18 53 4.72
3.6430
27 26 33.7
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2
20 56 38.45
3.4643
22 46 52.6
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3
18 55 43.26
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3
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4
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4
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5
19 1 0.18
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5
21 4 0.42
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22 17 4.1
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6
19 3 38.54
3.6380
27 18 49.4
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6
21 6 27.06
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22 6 51.3
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7
19 6 16.83
3.6376
27 16 25.5
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7
21 8 53.35
3.4359
21 56 30.4
10418
8
19 8 55.04
3.6800
27 13 50.4
3.678
8
21 11 19.27
3.4999
2146 1.4
10.551
9
19 11 33.15
3.6843
27 11 4.1
3405
9
21 13 44.83
3.4933
21 35 24.3
10488
10
19 14 11.15
3.6835
27 8 6.6
8451
10
21 16 10.04
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21 24 39.3
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11
19 16 49.04
34805
27 4 58.0
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11
21 18 34.90
3.4113
21 13 46.5
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12
19 19 26.81
34985
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12
21 20 59.40
3.1053
21 2 46.0
11478
13
19 22 4.45
34363
26 58 7.9
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13
21 23 23.54
3.3993
20 51 37.8
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14
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34340
26 54 26.5
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14
21 25 47.32
3.3934
20 40 22.1
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15
19 27 19.32
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20 28 59.1
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16
19 29 56.52
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26 46 30.6
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16
21 30 33.81
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20 17 28.7
11467
17
19 32 33.56
34156
26 42 16.3
4.380
17
21 32 56.53
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20 5 51.1
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18
19 35 10.42
34138
26 37 51.1
4.510
18
21 35 18.89
3.3698
19 54 6.3
11406
19
19 37 47.10
34008
26 33 15.1
4490
19
21 37 40.90
34639
19 42 14.5
11.9^18
20
19 40 23.60
34067
26 28 28.4
4496
20
21 40 2.55
34580
19 30 15.8
13437
21
19 42 59.90
34084
26 23 31.0
5445
21
21 42 23.85
34531
19 18 10.2
13.150
22
19 45 35.99
34000
26 18 23.0
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22
21 44 44.80
34469
19 5 57.8
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23
19 48 11.88
3.6065
26 13 4.3
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23
21 47 5.39
3.3403
18 53 38.7
13473
24
19 50 47.55
3-6036
&26 7 35.1
5.574
24
21 49 25.63
33845
&18 41 13.1
13.483
70
MAY, 1855.
V.
GREENWICH MEAN TIME.
; THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour
DiC
forlm.
DecUnaUoo.
DMt
forlm.
Hoar.
Diff.
Ibrlm.
Ibrlm.
WEDl
^JESD.
AY 9.
FRIDAY
11.
h. m •.
•.
O 1 N
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h. m. •.
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O 1 N
w
0
21 49 25.63
9.8346
S.18 41 13.1
19.489
0
23 35 38.10
9.1148
& 7 7 28.2
16.891
1
21 51 45.52
a.sm
18 28 41.0
19.069
1
23 37 44.90
9.1190
6 51 38.0
16.853
2
21 54 5.06
9.«ao
18 16 2.6
19.005
2
23 39 51.53
9.1099
6 35 45.9
15.883
3
21 66 24.25
2.1171
18 3 17.9
19.798
3
23 41 58.00
9.1066
6 19 52.1
15.919
4
21 58 43.09
9.3118
17 50 27.1
19.900
4
23 44 4.31
9.1038
6 3 56.6
15.988
' 5
22 1 1.60
9.in«7
17 37 30.2
18.000
5
23 46 10.46
9.1019
5 47 59.5
16.968
6
22 3 19.78
9J0OT
17 24 27.2! isuw)
6
23 48 16.46
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6 32 1.0
164)88
7
22 5 37.62
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17 11 18.3| 18.197
7
23 50 22.32
9U)066
6 16 l.l
164)11
8
22 7 55.12
9.9860
16 58 3.6
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8
23 52 28.04
94)949
4 59 59.7
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1 9
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16 44 43.2
18.388
9
23 54 33.62
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4 43 57.1
164)69
10
22 12 29.11
9.9780
16 31 17.2
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10
23 56 39.06
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4 27 53.3
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11
22 14 45.62
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16 17 45.8
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11
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4 1148.5
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12
22 17 1.80
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16 4 8.9
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12
0 0 49.58
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3 55 42.8
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> 13
22 19 17.66
9.9618
15 50 26.7
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13
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3 39 36.2
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U
22 21 33.20
9.9665
15 36 39.3
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14
0 4 59.65
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3 23 28.8
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15
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15 22 46.9
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20
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20
0 17 27.43
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1 46 32.2
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21
22 37 13.34
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13 57 49.9
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21
0 19 31.76
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130 21.6
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22
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1 14 10.9
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23
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6
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5
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6
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7
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1130 29.9
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7
0 40 11.94
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1 11 17.3. 16.196
8
23 1 22.34
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0 42 15.75
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9
23 3 32.49
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9
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, >0
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' 17
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23 25 1.39
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8 26 8.3 16486
19
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20
23 27 9.11
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8 10 28.8 16.678
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24
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N 6 42 34.0
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VI.
MAY, 1855.
71
1
1
GREENWICH
MEAN TIME.
1
1
i
THE
MOON'S BIGHT ASCENSION AND DECLINATION.
' Hour.
Right AKoaakm.
Diff
forlm.
Dgdinatloa.
Diff
for 1 m.
Hour.
Diff
for 1 in.
Declination.
Diff
for 1 m.
SVl
JDAY
13.
TUESDAY
15.
h. m. •.
■L
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N
h. m. ■.
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0 1 II
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0
1 15 17.08
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0
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1
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1
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2
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2
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3
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7
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7 31 39.7
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7
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8
1 31 51.63
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7 47 4.7
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8
3 14 9.68
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18 48 24.6
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9
1 33 56.29
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8 2 26.8
9
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10
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20
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21
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22
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11 17 24.8, 14.619
22
3 45 17.61
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Nil 31 59.6, 14JM7
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12
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13
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13
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15
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15
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16
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15 28 40.5
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16
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17
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17
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18
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18
4 30 48.85
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24 17 19.5
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19
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19
4 33 7.10
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20
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16 20 54.4
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20
4 35 25.49
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21
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16 33 44.2
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21
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24 39 10.8
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22
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22
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23
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23
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24
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N.17 11 39.4
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24
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N 24 59 46.9
6467
T2
MAY, 1855.
VII.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
j
Right A«c«iwioiL
Diff.
fori m.
DecUaatioa.
Dior.
forlm.
Hour.
RiffhtAacoMion.
IHtt.
forlm.
Dedinatloo.
DiC
forlm.
THURSDAY 17.
SATURDAY 19.
h m. •.
8.
0 1 1
a
h. m. t.
•.
O 1 N
«
0
4 44 40.40
3JI63
N 24 59 46.9
6.057
0
6 36 39.96
94155
N.27 31 33.7
0466
1
4 46 59.44
9J183
25 6 22.1
6417
1
6 38 68.84
S4183
27 31 8.1
0498
2
4 49 18.59
%xm
25 12 48.9
0475
2
6 41 17.58
94110
27 30 34.0
0441
3
4-51 37.85
3.ft£K)
25 19 7.2
6.933
3
6 43 36.19
94087
27 29 51.3
0.784
4
4 53 57.23
2MXJ
25 25 16.9
6400
4
6 45 54.65
94063
27 29 0.0
0.996
5
4 56 16.71
%»iM
25 31 18.0
5.M7
5
6 48 12.96
94088
27 28 0.1
1408
6
4 58 36.28
3.S960
25 37 10.6
5405
6
6 50 31.13
94019
27 26 61.6
1410
7
5 0 55.94
%9aBi
25 42 54.6
5489
7
6 52 49.14
9.9085
27 25 34.7
1460
8
5 3 15.69
9.3996
25 48 29.9
5417
8
6 55 6.98
9.9956
27 24 9.4
1490
9
5 5 35.53
9^19
25 53 56.6
5471
9
6 57 24.65
9.9930
97 22 36.8
14W
10
6 7 65.45
9.3395
25 69 14.5
5.995
10
6 59 42.15
9.9900
27 20 53.8
1.770
11
5 10 15.45
9.3338
26 4 23.6
5479
11
7 1 59.47
9.9870
27 19 3.4
1400
13
5 12 35.52
9.33M
26 9 24.0
4433
12
7 4 16.61
9.9838
27 17 4.8
9^H6
13
5 14 55.65
9.3360
26 14 15.6
4.787
13
7 6 33.55
9.9806
27 14 68.0
9.109
14
6 17 15.84
9.3370
26 18 58.4
4441
14
7 8 50.30
9.9n4
27 12 42.9
9419
15
5 19 36.09
9.3379
26 23 32.6
4.495
15
7 11 6.86
9*9749
27 10 19.6
9460
16
5 21 56.39
9.3387
26 27 57.9
4448
16
7 13 23.22
9.9708
27 7 48.2
9409
17
5 24 16.73
9.3308
26 32 14.4
4.901
17
7 15 39.37
9.9673
27 6 8.7
9.717
1 18
5 26 37.12
9.3388
26 36 22.1
4454
18
7 17 55.31
9.9638
27 221.1
9400
1 19
5 28 57.52
93103
26 40 20.9
8407
19
7 20 11.04
9.9609
26 69 26.4
9490
20
5 31 17.97
9.3108
26 44 10.9
3.760
20
7 22 26.55
9.9568
26 66 21.7
3.190
21
5 33 38.45
9.3413
26 47 52.1
3413
21
7 24 41.84
9.9699
26 53 10.1
3.950
II 22
5 35 58.95
9.3416
26 5124.5
3.465
22
7 26 56.91
9.9499
26 49 50.7
8400
23
1
1
6 38 19.46
FR
9.3417
[DAY
N.26 54 48.0
18.
3417
23
7 29 11.75
SUJ
94464
JDAY
N.96 46 23.6
20.
0400
• 0
5 40 39.97
9.3418
N26 58 2.6
8.108
0
7 31 26.36
9.9416
.N 26 42 48.4
04M>
; »
5 43 0.49
9.3418
27 1 8.3
3490
1
7 33 40.73
9.9r5
26 39 5.6
3.780
2
5 45 21.00
9.3417
27 4 5.0
9471
2
7 35 64.86
9.9836
26 35 14.8
S40O
3
5 47 41.51
9.341 A
27 6 52.8
9.799
3
7 38 8.75
9.9994
26 31 16.4
4480
4
5 50 2.00
9.3419
27 9 31.7
9.578
4
7 40 22.40
9.9953
26 27 10.4
4.108
5
5 52 22.47
93408
27 12 1.7
9.495
5
7 42 35.81
9.9913
26 22 56.8
44B0
6
5 54 42.91
9.3403
27 14 22.8
9.978
6
7 44 48.97
9.4172
26 18 35.5
44n
7
5 57 3.32
9Mm
27 16 35.1
9.130
7
7 47 1.88
9.9130
26 14 6.7
4441
8
5 59 23.69
9^3390
27 18 38.5
1.9»2
8
7 49 14.53
9.9087
26 9 30.5
4488
9
6 144.03
9.33frJ
27 20 32.9
13M
9
7 51 26.92
9.9043
26 4 47.0
4.TB6
1 10
6 4 4.31
9.3374
27 22 18.5
1.887
10
7 53 39.06
9.9000
25 69 56.1
4400
11
6 6 24.54
9J366
27 23 55.3
l.fr40
11
7 55 50.94
9.1957
25 64 57.9
6400
12
6 8 44.71
9.33AA
27 25 23.2
149J
12
7 58 2.55
9.1914
25 49 52.4
6.168
13
6^11 4.81
9J34»
27 26 42.3
1.945
13
8 0 13.90
9.1870
25 44 39.6
6.979
1 1^
6 13 24.84
9.3333
27 27 52.6
1408
14
8 2 24.99
9.1895
25 39 19.6
6499
1«
6 15 44.79
9.S318
27 28 54.1
0489
15
8 4 35.80
9.n80
25 33 62.5
6410
I 16
6 18 4.66
9.SS0S
27 29 46.8
0405
16
8 6 46.34
9.1734
25 28 18.4
6497
ii 17
6 20 24.44
9.3388
27 30 30.7
0456
17
8 8 56.61
9.1888
25 22 37.2
6.7a
i *^
6 22 44.13
9.3ni
27 31 5.8
0419
18
8 U 6.61
9.1049
25 16 49.1
6430
19
6 25 3.72
9.39U
27 31 32.2
040T
19
8 13 16.33
9.1696
25 10 64.1
6473
' 80
6 97 23.20
%»m
27 31 49.9
0.999
20
8 15 25.78
9.1650
26 4 62.1
0000
.; 91
6 29 42.57
9J918
97 3158.7
0477
21
8 17 34.95
9.1604
24 58 43.3
0400
22
6 32 1.82
94198
27 31 59.2
0407
22
8 19 43.84
9.1456
24 52 27.6
0417
23
6 34 20.95
9.3177
27 31 50.8
0.911
23
8 21 52.45
9 1419
24 46 6.2
0490
. 24
6 36 39.96
94m
.S 27 31 33.7
04M
24
8 24 0.79
0.1186
N 24 39 36.2
0430
VIll.
MAY, 1855.
73
GREENWICH
MEAN TIME.
THE
MOOITS BIGHT
ASCENSION AND DECLINATION.
Hour.
Right AKenaion.
DiOr.
furl m.
DeclinatioD.
DiflT.
fori m.
Hoar.
Right AKeiwioo.
Dilf
fori in.
DecUnAUon.
Dior.
forlm.
M0^
[DAY
21.
WEDNESDAY 23.
h. m. «.
«.
O 1 u
n
h. m. 8.
8.
O 1 u
n
0
8 24 0.79
3.IS68
N 24 39 36.2
6.518
0
10 1 16.86
1.9959
N.17 34 8.7
10.875
1
8 26 8.85
a.lS90
24 33 0.6
6.648
1
10 3 12.26
1.9917
17 23 14.2
10.045
2
8 28 16.62
9.1472
24 26 18.5
6.756
2
10 5 7.45
1.9189
17 12 15.4
114)15
3
8 30 24.09
3.1234
24 19 29.9
6.866
3
10 7 2.42
1.9147
17 1 12.5
114)83
4
8 32 31.28
3.im
24 12 34.7
6.973
4
10 8 57.18
1.9119
16 50 5.6
11*151
5
8 34 38.19
a.1130
24 5 33.0
7.080
5
10 10 51.73
1.9078
16 38 54.7
11.918
6
8 36 44.82
3.1089
23 58 25.0
7.187
6
10 12 46.08
1.9D44
16 27 39.6
11.986
7
8 38 51.16
9.10U
23 51 10.8
7.909
7
10 14 40.23
1.9010
16 16 20.5
11.359
8
8 40 57.22
94)888
23 43 50.3
7.806
8
10 16 34.18
1.8977
16 4 57.5
11.418
9
8 43 3.00
94)040
23 36 23.5
7.498
9
10 18 27.94
1.8015
15 53 30.6
11.488
10
8 45 8.50
94)893
23 28 50.6
7.000
10
10 20 21.51
1.8013
15 4159.8
11.547
11
8 47 13.71
94)847
23 21 11.6
7.701
11
10 22 14.89
1.8889
15 30 25.1
11.910
13
8 49 18.64
9.0800
23 13 26.5
7.809
12
10 24 8.08
1.8852
15 18 46.6
11.678
13
8 51 23.29
9.0758
23 5 35.4
7.909
13
10 26 1.09
1.8893
15 7 4.4
11.735
14
8 53 27.66
94)707
22 57 38.3
8.000
14
10 27 53.93
1.8793
14 55 18.6
11.796
15
8 55 31.75
9.0000
22 49 35.4
8.097
15
10 29 46.59
1.8763
14 43 29.1
11.855
16
8 57 35.56
94)018
22 4126.7
8.105
16
10 31 39.08
1.8735
14 31 36.0
11.914
17
8 59 39.09
94)M6
22 33 12.2
8.999
17
10 33 31.40
1.8708
14 19 39.4
11.975
18
9 1 42.34
94)519
22 24 51.8
8.388
18
10 35 23.56
1.8681
14 7 39.2
19.033
10
9 3 45.31
9.0478
22 16 25.7
8.489
19
10 37 15.56
1.8655
13 55 35.6
12.090
20
9 5 48.00
9.0437
22 7 54.0
8.576
20
10 39 7.41
1.8630
13 43 28.5
19.148
21
9 7 50.42
94)881
21 59 16.7
8.670
21
10 40 59.10
1.8605
13 31 17.9
1-2.-205
22
9 9 52.56
21 50 33.8
8.703
22
10 42 50.65
1.8581
13 19 3.9
12.261
23
9 11 54.43
94)980
N.21 41 45.4
8.853
23
10 44 42.05
1.8557
N.13 6 46.7
12.315
TUE
SDAY
22.
THU
RSDA
Y 24. 1
0
9 13 56.02
^0943
N.21 32 51.6
8.048
0
10 46 33.31
1.8533
N.12 54 26.2
19.369
1
9 15 57.34
94)198
21 23 52.3
04)32
1
10 48 24.43
1.8)10
12 42 2.4
19.493
2
9 17 58.39
94)153
21 14 47.7
0.191
2
10 50 15.42
1.8488
12 29 35.4
12.477
3
9 19 59.17
94)108
21 5 37.8
0.910
3
10 52 6.29
l.a467
12 17 5.2
19.590
4
9 21 59.68
94)083
20 56 22.6
0.907
4
10 53 57.03
1.8446
12 4 31.9
19.560
5
9 23 59.92
94)090
20 47 2.2
0.888
5
10 55 47.65
1.8195
11 51 55.6
19.631
6
9 25 59.90
94)977
20 37 86.6
0.409
6
10 57 38.14
1.8105
11 39 16.2
19.689
7
9 27 59.62
1.9088
20 28 6.0
9.553
7
10 59 28.51
1.8385
11 26 33.8
19.739
8
9 29 59.08
1.0800
20 18 30.3
9.687
8
11 1 18.76
l.ai67
11 13 48.4
19.780
9
9 31 58.28
14)845
20 8 49.5
9.791
9
11 3 8.91
1.8350
11 1 0.1
19.898
10
9 33 57.21
14)808
19 59 3.8
9.803
10
11 4 58.97
1.8334
10 48 8.9
19.875
11
9 35 55.89
1.9709
19 49 13.2
9.889
11
11 6 48.94
1.8318
10 35 14.8
12.098
12
9 37 54.33
1.9791
19 39 17.6
9.960
12
11 8 38.82
1.8309
10 22 18.0
19.970
13
9 39 52.53
1.9880
19 29 17.2
104M6
13
11 10 28.61
1.8988
10 9 18.4
184)16
14
9 41 50.48
1.0688
19 19 12.1
10.195
14
11 12 18.31
1.8974
9 56 16.1
134)60
15
9 43 48.17
1.0007
19 9 2.3
10.904
15
11 14 7.91
1.8980
9 43 11.2
13.108
16
9 45 45.62
1.05*7
18 58 47.7
10.981
16
U 15 57.43
1.8247
9 30 3.7
18.147
17
9 47 42.83
1.0517
18 48 28.5
10.956
17
11 17 46.88
1.8235
9 16 53.5
18.190
18
9 49 39.81
1.0478
18 38 4.8
10.434
18
11 19 36.26
1.8993
9 3 40.7
13.933
19
9 51 36.56
14)430
18 27 36.6
10.509
19
11 21 25.58
1.8913
8 50 25.4
13.975
20
9 53 33.08
1.0400
18 17 3.8
10.563
20
11 23 14.83
1.8903
8 37 7.7
18.315
21
9 55 29.37
1.9369
18 6^6.6
10.657
21
11 25 4.02
1.8193
8 23 47.6
18.355
22
9 57 25.42
1.0395
17 55 45.0
10.780
22
1126 53.15
1.8181
8 10 25.1
18.395
23
9 59 21.25
IJMBS
17 44 59.0
10.803
23
U 28 42.23
1.8177
7 57 0.2
13.433
24
10 1 16.86
1.0259
N.17 34 8.7
■ ■
10.875
24
11 30 31.27
1^170
N. 7 43 33.0
18.471
10
74
MAY, 1866.
IX.
j=
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION,
Hour.
Right AaceiMion.
Dltt
forlm.
DecUnatioa.
Diflr.
forlm.
Hour.
Right AKaorioo.
forlm.
DtcUnoUoiL
Dur.
forlm.
FRIDAY
25.
SUNDAY
87.
h. ro. •.
•.
1 O 1 «
«
h. m. s.
•.
O 1 N
H
0
U 30 31.27
1.8170
N. 7 43 33.0
18.471
0
12 58 18.67
13708
S. 3 33 55.7
14.466
1
U 32 20.27
1.016S
7 30 3.6
18300
1
13 0 11.01
18788
3 48 23.7
14367
3
11 34 9.22
1.8156
7 16 32.0
1834f7
2
13 2 3.53
1.8770
4 2 51.7
14367
3
11 35 58.14
I31A3
7 2 58.2
18388
3
13 3 56.25
13809
4 17 19.7
14366
4
11 37 47.03
1.8148
6 49 22.2
18318
4
13 5 49.16
138S6
4 31 47.6
14368
5
11 39 35.89
1.814A
6 35 44.0
18369
5
13 7 42.27
13808
4 46 15.3
14360
6
11 41 24.74
1.8149
6 22 3.8
18386
6
13 9 35.59
13008
5 0 49.8
14366
7
11 43 13.58
1.8140
6 8 21.6
18.790
7
13 11 29.12
13040
5 15 10.1
14361
8
11 45 2.40
13186
5 54 37.5
18.768
8
13 13 22.87
i3on
5 99 37.1
14346
9
11 46 51.21
13187
5 40 51.4
18.787
9
13 15 16.83
13018
6 44 3.7
14.486
10
11 48 40.02
13187
5 27 3.3
18390
10
13 17 11.02
13060
5 58 99.9
14381
11
11 50 28.83
13187
5 13 13.2
183S1
11
13 19 5.44
13088
6 19 65.5
14398
12
11 52 17.65
1.8130
4 59 21.2
18361
12
13 21 0.09
13198
6 97 90.6
14318
13
11 54 6.48
13140
4 45 27.5
18*011
13
13 22 54.98
13168
6 4144.9
14309
14
11 55 55.33
i3ia
4 31 32.0
18-MO
14
13 24 50.12
13310
6 56 8.7
14300
15
1157 44.20
13147
4 17 34.8
18.067
15
13 26 45.51
13988
7 10 31.8
143fn
1 16
11 59 33.09
I31A9
4 3 36.0
18.004
16
13 28 41.16
13907
7 94 54.0
14368
1 17
12 1 22.01
13187
3 49 35.6
14-091
17
13 30 37.07
13640
7 39 16.3
14341
18
12 3 10.96
i3ioa
3 35 33.6
14.048
18
13 32 33.24
13984
7 63 35.6
14380
19
12 4 59.94
13108
3 21 30.0
14418
19
13 34 29.68
13480
8 7 54.9
14319
20
12 6 48.97
13176
3 7 24.9
14-007
20
13 36 26.40
13476
8 99 13.1
14.9M
21
12 8 38.06
13186
3 53 18.4
14.190
21
13 38 23.40
13698
8 36 30.9
143f76
22
12 10 27.20
13IM
2 39 10.6
14.148
22
13 40 90.68
13671
850 46.1
14366
23
12 12 16.39
13906
N. 2 25 1.4
14*166
23
13 49 18.25
13090
& 9 6 0.8
1430
SAT
URDA
Y 26.
MO]
NDAY
28.
0
12 14 5.64
13-ilA
N. 2 10 50.9
14.167
0
13 44 16.12
13670
s. 9 19 14.1
14310
1
12 15 54.97
132^
156 39.1
14307
I
13 46 14.29
13790
9 33 96.0
14.W6
t 2
12 17 44.37
I3ri8
142 26.1
14.237
2
13 48 12.75
1*0770
9 47 36.3
14.166
3
12 19 33.84
13251
128 11.9
14.946
3
13 50 11.51
13899
10 145.0
14.180
4
12 21 23.39
13)»i^i
1 13 56.6
14.966
4
13 52 10.59
13876
10 15 59.0
14.1f9
5
12 23 13.03
l.ewo
0 59 40.2
14.989
5
13 M 9.99
13098
10 99 57.3
14318
6
12 25 2.76
U»]9i
0 45 22.8
14.908
6
13 56 9.71
13089
10 44 0.7
143tf
7
12 26 52.58
13311
0 31 4.4
U314
7
13 58 9.76
93067
10 58 9.9
14360
8
12 28 42.50
13328
0 16 45.1
14380
8
14 0 10.14
13003
11 19 1.7
18376 '.
9
12 30 32.54
I3W:
N 0 2 24.9
1434A
9
14 2 10.86
93iao
1125 59.9
18310
10
12 32 22.68
I336r.
son 56.3 I43.i«
10
14 4 11.93
93907
1139 54.6
18306
^*
12 34 12.93
I3I8A
0 26 18.4 14371
11
14 6 13.35
9396A
1153 47.9
18360
12
12 36 3.29
13104
0 40 41.2 14.384
12
14 8 15.11
93694
19 7 38.9
18319 ;
13
12 37 53.78
134 i5
0 55 4.8 143W
13
14 10 17.22
93BRI
12 21 27.5
18.701 1
14
12 39 44.40
13447
1 9 29.0 14.40H
14
14 12 19.69
93449
12 35 13.7
18.710 '
15
12 41 35.16
13170
I 23 53.8, 14^18
15
14 14 22.52
930O9
12 48 57.4
18.107 [
1 i6
12 43 96.05
I3««
138 19.1' 14.4^
16
14 16 25.72
93M9
13 2 38.5
18368
17
12 45 17.08
I35I6
1 52 44.9 14.4S5
17
14 18 29.29
93694
13 16 16.9
183n
1 18
12 47 8.25
13640
2 07 11.2 14.443
18
14 20 33.24
93688
13 99 52.5
18360
1 »»
12 48 59.57
I3S66
2 21 37.9, 14.448
19
14 22 37.57
93766
13 43 25.9
18390
20
12 50 51.05
13a«
2 36 4.9 U.463
20
14 24 42.99
93616
13 56 54.9
18310 ,
21
12 52 42.70
13691
2 50 32.2 14.4W
21
14 96 47.40
93886
14 10 91.5
> 92
12 54 34.52
13649
3 4 59.8> 14.400
22
14 98 52.90
t30U
14 93 45.0
18306
23
12 56 26.51
13678
3 19 27.7 14.40
23
14 30 58.80
9.1016
14 37 5.3
18319
24
12 58 18.67
13706
H. 3 33 55.7
14.466
24
14 33 5.10
9. 1064
&14 60 99.3
t 1836?
X.
MAY, 1856.
T5
GREENWICH MEAN TIME.
THE
MOON'S BIGHT
ASCENSION AND DECLINATION.
Hoar.
ftif ht AmMkHv
DMC
forlm.
DecUnatkm.
Diff.
forlm.
Hour.
Right AMMwkm.
Diff.
forlm.
DecUnukML
DUt
forlm.
TUE
SDAY
29.
THURSDAY 31.
h. m. •.
•.
O 1 N
N
h. m. 8.
a.
O 1 II
N
0
14 33 5.10
s.ioe4
ai4 50 22.3
18.961
0
16 22 55.38
3.4164
S.23 50 18.9
8406
1
14 35 11.81
3.1 i«
15 3 35.9
18.109
1
16 25 24.14
3.4880
23 58 48.2
8411
2
14 37 18.93
3.1390
15 16 46.0
18.140
2
16 27 53.36
9.4900
24 7 8.9
8^178
3
14 39 26.46
3.13D0
15 29 52.6
lum
3
16 30 23.04
9.4983
24 15 20.9
8.197
4
14 41 34.40
9.1MI
15 42 55.5
184)16
4
16 32 53.16
34066
24 23 24.1
1480
5
14 43 42.77
%\m
15 55 54.5
19Ja3
5
16 35 23.71
34130
24 31 18.5
1483
6
14 45 51.57
%im
16 8 49.7
19.887
6
16 37 54.69
34300
24 39 3.9
1483
7
14 48 0.80
3.151ft
16 21 40.9
19.890
7
16 40 26.10
34911
24 46 40.3
1480
8
14 50 10.46
3.1047
16 34 28.1
19.102
8
16 42 57.94
34843
24 54 7.4
147ft
9
14 52 90.55
3.173D
16 47 11.1
13.689
9
16 45 30.21
3.0413
25 125.1
1.318
10
14 54 31.08
9.1198
16 59 49.8
19.611
10
16 48 2.90
9.0481
25 8 33.4
1400
11
14 56 42.05
3.1866
17 12 24.2
19486
11
16 50 36.00
94648
25 15 32.3
0403
12
14 58 53.46
3.13S9
17 24 54.3
19468
12
16 53 9.50
94614
25 22 21.7
0,743
13
15 1 5.32
3.9014
17 37 19.8
19486
13
16 55 43.39
94680
25 29 1.4
6460
14
15 3 17.63
9J0OO
17 49 40.6
19407
14
16 58 17.67
9474ft
25 35 31.4
6.416
15
15 5 30.39
9.9166
18 156.6
19.996
15
17 0 62.35
94600
25 4151.5
6350
16
15 7 43.60
9.3349
18 14 7.7
19.148
16
17 3 27.42
94619
25 48 1.5
6463
17
15 9 57.27
9.9018
18 26 18.7
13.086
17
17 6 2.86
94008
25 54 1.4
6410
18
15 12 11.40
9.98M
18 38 14.5
11.011
18
17 8 38.66
94090
25 59 51.2
ft.?4«
19
15 14 25.99
9.9411
18 50 10.1
11403
19
17 11 14.81
9.0098
26 5 30.9
6.614
20
15 16 41.05
9.9040
19 2 0.4
U.T^2
20
17 13 51.31
9.6119
26 11 0.2
ft.401
21
15 18 56.58
9.9031
19 13 45.3
11.101
21
17 16 28.16
9.6110
26 16 19.1
ft.336
22
15 21 12.57
9.9706
19 25 24.7
11410
22
17 19 5.36
9.6930
26 21 27.4
6400
23
15 23 29.03
9.9781
S.19 36 58.5
114n
23
17 21 42.89
34380
S.26 26 25.1
4414
WEDf
JEsm
lY 30.
FRIDA
Y, JU
NE 1.
0
1
2
15 25 45.97
15 28 3.39
15 30 21.28
9.9608
9.3043
&19 48 26.6
19 59 49.0
20 11 5.5
11.493
11434
0
17 24 20.74
34389
S.26 31 12.8
4.661
9J091
11.938
3
15 32 39.64
9J100
20 22 15.8
11.190
4
15 34 58.48
9J180
20 33 19.9
11416
5
15 37 17.80
9^900
20 44 17.8
10.910
6
15 39 37.60
9.0888
20 55 9.3
10409
7
15 41 57.87
9.8418
21 5 54.3
10408
PHASES (
)F T]
HE MOON.
8
15 44 18.62
9.8498
21 16 32.6
10469
9
15 46 39.85
9.8^78
2127 4.2
10.410
10
15 49 1.56
9.8896
21 37 29.0
10406
Ifcy. h. m.
11
15 51 23.75
9.8788
21 47 46.9
10.340
O Full Moon
« •
. 1 16 3.5
12
15 53 46.43
94818
21 57 57.8
10.133
(C Last Qaan
ler, .
. 8 15 1.9
13
15 56 9.59
94800
22 8 1.6
10403
# New Mooi
h •
. 15 14 13.3
14
15 58 33.22
94078
22 17 58.0
9479
3> First Qau
ter,
. 93 12 9 8
15
16 0 57.32
9.4067
22 27 47.0
9.16ft
O Full Mooi
1. •
. 31 2 47.9
16
16 3 21.90
9.4186
22 37 28.6
0499
17
16 5 46.95
9.491ft
22 47 2.6
9403
. . 8 12.S
18
16 8 12.47
9.490S
22 56 28.9
9418
<C Perigee,
• •
19
16 10 38.46
9.4811
23 5 47.5
9.349
<C Apogee,
• •
. . 22 13.4
20
16 13 4.92
9.4440
23 14 58.1
9.100
21
16 15 31.84
9.4096
23 24 0.6
esrj4
22
16 17 59.23
9.4009
23 32 55.0
8487
23
16 20 27.08
9.4618
23 4141.1
8408
24
16 22 55.38
9.4104
S.23 50 18.9
6406
76
MAY, 1855.
XI.
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
^t
r
Sur'aNaiM
P. L.
P.L.
P.L.
P L.
and
Noon.
of
mh.
of
VP».
of
IX»>.
of
Pocitioo.
Dlff
UtL
Diff
DIff
i —
1
Regulus W.
O 1 u
64 33 38
9M3
O 1 N
66 11 36
9699
O 1 M
67 49 51
9616
O 1 1'
69 28 22
9606
Spica W.
10 58 12
9876
12 31 2
9814
14 5 12
9769
15 40 30
9790
Antares E.
35 45 31
9BSA
34 724
9694
3229 2
9614
30 50 26
9004
a Aquilc E.
87 13 8
S406
85 52 5
1457
84 30 53
1460
83 9 33
1444
Jupiter E.
116 17 10
9687
114 40 13
9676
113 3 0
9668
111 26 30
9661
9
Regulus W.
77 44 67
3M0
79 25 2
9668
81 6 22
9698
82 46 56
9617
Spica W.
23 48 1
9fl08
25 27 5
9677
27 6 32
9600
28 46 22
9646
Anures E.
22 34 10
9M1
20 54 21
9666
19 14 24
9649
17 34 19
9646
a Aquils E.
76 21 50
S4ae
75 0 17
6446
73 38 49
1449
72 17 28
1466
Jupiter E.
103 14 2
3303
101 34 58
9saa
99 65 39
9679
98 16 6
9661
Fomalhaut E.
105 2 30
9719
103 26 16
3W7
101 49 46
9096
100 12 69
9888
3
Regulus W.
91 12 15
9*71
9254 9
9469
94 36 15
9164
96 18 33
9446
Spica W.
37 10 15
9464
38 51 51
9C7S
40 33 42
9461
42 15 47
9481
a Aquils E.
65 33 37
1M9
64 13 45
1668
62 54 19
1979
61 35 22
1609
Jupiter E.
89 54 47
951i
88 13 51
9904
86 32 43
9IB6
84 6124
9187
Fomalhaut E.
92 5 15
9610
90 27 1
9091
88 48 35
9618
87 9 68
9607
a Pegasi E.
111 37 57
9899
110 5 28
9874
108 32 36
96A6
106 69 23
98a
4
Spica W.
50 49 31
9110
52 32 51
9401
64 16 22
9m
66 0 2
9889
a Aquilae E.
55 10 4
»n
53 55 25
8681
52 41 46
1947
61 29 14
4091
Jupiter E.
Fomalhaut E
76 22 2
94M
74 39 39
9148
72 57 6
9487
71 14 24
9ai
78 54 36
9ft76
77 15 8
9flrr9
75 35 34
9669
73 65 56
9666
a Pegasi E
99 8 40
an9
97 33 45
9700
95 58 37
9760
94 23 17
9769
5
Spica W.
64 40 43
9809
66 25 16
9866
68 956
9849
69 64 44
1
9846 1
Aoures W.
18 48 12 1 OTB
20 32 17
9m
22 16 35
9361
24 1 6
9864 1
a Aquilc E.
45 47 3| 4MI
44 43 38
4671
43 42 14
48 JH
42 43 1
6006
Jupiter E.
62 38 52
940A
60 55 24
9t0l
59 U 50
9896
57 28 9
9866
Fomalhaut E.
65 37 4
9661
63 57 16
9664
62 17 31
9666
60 37 60
9670
a Pegasi E.
86 24 22
yj96
84 48 16
9i9)
83 12 7
97^1
81 36 55
9719
Son E.
137 41 31
9667
136 3 54
96M
134 26 9
9647
132 48 18
9618
6
Spica W.
78 40 13
9iM
80 25 35
9898
82 11 1
9890
83 56 31
9117
Antares W.
32 45 58
9fti6
34 31 19
9118
36 16 45
9819
38 2 16
9117
Jupiter E.
48 48 37
9376
47 4 31
9876
45 20 22
9374
43 36 10
9871
Fomalhaut E.
52 21 11
9607
50 42 25
9690
49 3 67
90)4
47 25 48
9619
1
a Pegasi E.
73 35 4
3761
71 59 5
9786
70 23 13
9748
68 47 30
9761
1
Sun £.
124 37 36
96a
122 59 12
9680
121 20 44
9616
119 42 11
9614 >
1
! 7
Spica W.
92 44 59
9106
94 30 50
9804
96 16 43
9804
98 237
9109
t
Anures W.
46 51 2
Mn
48 36 59
9800
60 22 58
9M6
52 8 69
9W7
Jupiter E.
34 55 0
9676
83 10 49
9677
3126 41
9879
29 42 36
9189
Fomalhaut E.
39 21 37
sn*
37 46 37
9616
36 12 28
9869
34 39 16
9910
a Pegasi E.
60 52 7
9Bli
69 17 55
9680
67 44 6
9890
66 10 43
9S79
Sun E.
11128 35
9601
109 49 42
9000
108 10 47
9V9
106 31 51
9697
8
Anurcs W.
60 50 36
991
62 46 49
9»1
64 32 2
9»l
66 18 16
9900
Fomalhaut E.
27 13 46
»47
25 50 29
14S4
24 29 58
8671
23 12 40
M91 i
a Pegasi E.
48 32 5
SOS
47 2 28
KTTl
46 33 46
8194
44 6 5
im
Sun E.
98 16 41
9A0i
96 37 35
9lSi
94 68 29 9161
93 19 22
9661
XII.
MAY, 1855.
77
QRF.ENWICH MEAN
TIME.
LUNAB DISTANCES.
1
Slar'tNuM
and
Poaitioa.
Midnight.
P. L.
of
Dio:
XVh.
P. L.
of
mtr.
XVIIPi.
P. L.
of
Difll
XXIb.
P. L.
of
Diflr.
O f N
O 1 M
O 1 II
o 1 k
1
Rc^llM W.
71 7 9
MM
73 46 13
3688
74 35 39
3671
76 5 07
3600
Spica W.
17 16 43
S887
18 53 41
30A0
30 31 16
3886
33 9 34
3018
AnUres E.
30 1136
3004
37 33 33
3680
35 53 17
3670
34 13 49
3008
a Aquile E.
8148 6
U»
80 36 34
84S8
79 5 0
8487
77 43 35
8487
Jupiter E.
109 47 44
9m
108 9 43
3017
106 31 34
3010
104 53 51
3004
9
Refnilus W.
84 36 45
wn
86 7 48
3408
87 49 4
3480
89 30 33
3480
Spica W.
30 36 33
9on
33 7 3
9610
33 47 49
3600
35 38 54
34M
Antares E.
15 54 9
9ft46
14 14 0
3669
13 33 59
3684
10 54 14
3084
a Aquile E.
70 56 15
MM
69 35 13
M78
68 14 34
S409
66 53 51
3600
Jupiter E.
96 36 18
M61
94 56 16
3641
93 16 0
3681
91 35 30
9699
Fomalhaot E.
98 35 56
9m
96 58 38
3000
95 31 4
3040
93 43 16
3040
3
Regnlus W.
98 1 3
9an
99 43 45
Mao
101 36 37
3438
103 9 39
9417
Spica W.
43 58 7
M43
45 40 40
9486
47 33 35
3430
49 6 33
M18
a Aquile E.
60 16 57
aott
5859 9
8080
57 43 1
8738
56 35 38
8700
Jupiter E.
83 9 53
3480
81 38 11
3479
79 46 18
3486
78 4 15
9168
Fomalhaot E.
85 31 13
saOQ
83 53 16
3B00
83 13 11
9680
80 33 57
9681
a Pegasi E.
105 35 50
fe»
103 51 58
9814
103 17 48
3801
100 43 31
3700
4
Spica W.
57 43 53
9388
59 37 51
9ro
61 13 0
3871
63 56 17
38M
a Aquile E.
50 17 55
4101
49 7 54
4101
47 59 19
Am
46 53 19
4400
Jupiter E.
69 31 33
9IS6
67 48 34
MIO
66 5 37
Slli
64 33 13
MIO
Fomalhaut E.
73 16 14
9M4
70 36 39
V»2
68 56 43
3601
67 16 53
3601
a Pegasi E.
93 47 46
a74ft
91 13 6
9780
89 36 18
97M
88 0 33
3790
5
Spica W.
71 39 38
SMI
73 34 38
3887
75 9 44
3388
76 54 56
9890
Antares W.
35 45 47
SM7
37 30 38
3849
39 15 37
3880
31 0 44
9881
a Aquile E.
41 46 10
0906
40 51 53
6490
40 0 18
6086
39 11 41
6074
Jupiter E.
55 44 34
3880
54 0 34
9880
53 16 39
3888
50 33 40
3880
Fomalhaut E.
58 58 14
3674
57 18 44
3080
55 39 33
3988
54 0 11
9800
a Pegasi E.
79 59 41
3730
78 33 38
3799
76 47 17
37M
75 11 9
9790
Sun E.
131 10 31
3888
139 33 18
30M
137 54 9
3680
136 15 55
9090
6
Spica W.
85 43 5
3814
87 37 44
9813
89 13 36
9810
90 59 11
3808
Antores W.
39 47 53
3813
41 33 33
3800
43 19 19
380)
45 5 9
3804
Jupiter E.
41 51 57
3878
40 7 43
9879
38 33 38
3879
36 39 13
9878
Fomalhaut E.
45 47 59
3887
44 10 35
9080
43 33 41
9714
40 57 30
3748
a Pegasi E.
67 11 58
3780
65 36 38
3no
64 1 31
9781
63 36 40
9700
Sun E.
118 3 35
3011
116 34 55
3008
114 46 11
3000
113 7 84
30M
7
Spica W.
99 48 34
3800
101 34 33
3800
103 30 33
3900
105 6 34
3300
Antares W.
53 55 3
3990
55 41 9
3906
57 37 16
3904
59 13 35
9309
Jupiter E.
37 58 36
3888
36 14 44
3804
34 31 0
3008
33 47 89
MI4
Fomalhaot E.
33 7 10
9871
31 36 31
8048
30 7 1
8137
38 39 34
8990
a Pegasi E.
54 37 48
3807
53 5 35
90M
51 33 37
3000
50 3 89
3001
Sun E.
104 53 53
3600
103 13 51
3606
101 34 49
3008
99 55 45
3608
8
Antares W.
68 439
9980
69 50 44
3980
71 36 59
3380
73 83 13
3900
Fomalhaut E.
31 59 11
41M
30 50 11
4611
19 46 39
4064
18 48 57
0037
a Pegasi E.
43 39 31
8941
41 14 10
8311
39 50 11
8801
38 37 44
8489
Sun E.
91 40 15
3601
90 1 8
3601
8833 0
3601
86 43 58
3601
78
MAY, 1866.
XIII.
1
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
1^
5*
Star*! Name
PMiUon.
Noon.
P.I*
of
Diflr.
UP*.
DiflC
Vlh.
P. L.
'iXh.
p. L.
or
DUE
9
Aotares
a Aquile
a Pegasi
Sun
W.
W.
E.
E.
O 1 0
75 9 97
41 13 7
37 7 0
85 3 45
ion
urn
O 1 M
76 55 41
49 9 9
35 48 11
83 94 39
9901
4889
9700
9a09
O 1 M
78 41 53
43 7 31
34 31 99
8145 34
9901
4708
9841
9804
O 1 «
8098 5
44 8 94
33 17 9
80 6 31
9999
4663
4001
9806
10
Antares
a Aquile
Sun
W.
W.
E.
80 18 39
49 43 0
715136
29»
aoei
9001
91 4 40
50 54 58
70 19 43
9800
9000
9004
99 50 39
59 8 18
68 33 53
9003
9834
9000
94 36 35
53 99 55
66 55 6
9806
9767
9007
11
oAquUe W.
Foinalhaot W.
Jupiter W.
Sun E.
59 51 43
95 38 34
91 49 99
58 4158
afl05
sito
SOU
61 19 9
97 0 57
93 39 91
57 3 33
9408
9974
9496
9090
6933 9
98 95 39
95 15 90
55 95 19
9494
9174
9490
9098
63 54 40
99 59 19
96 58 96
53 46 55
9404
9091
9110
9893
19
a Aquile W.
Fomalhant W.
Jupiter W.
Sun E.
70 50 11
37 96 31
35 34 41
45 36 58
1906
9BS4
9416
9BM
79 14 95
39 0 15
37 17 55
43 59 18
9964
9B09
9417
9W1
73 38 56
40 34 40
39 1 5
49 91 46
9979
9430
9000
75 3 38
49 9 40
40 44 11
40 44 91
9904
9769
9494
•"'1
13
1
1
a Aquile W.
Fomalhant W.
Jupiter W.
Sun E.
89 9 90
50 10 35
40 18 19
39 39 10
9949
9087
9440
9704
83 34 39
5147 33
51 0 48
31 9 36
9943
9070
9409
9719
84 59 58
53 94 41
59 43 9
99 96 19
9346
9874
9468
9710
86 95 14
55 1 56
54 95 99
97 49 58
1
9360 1
9870
9484
9798
18
Sun
Regulns
W.
E.
98 56 46
69 9 31
9107
9B97
30 93 47
60 35 38
9M0
9880
3150 33
59 9 1
9181
9B63
33 17 5
57 98 40
9194
9806 1
19
1
Sun
Regius
Spiea
W.
E.
E.
40 96 1
49 45 55
103 47 94
9904
9090
9011
41 51 6
48 14 9
109 15 10
9900
9097
9991
43 15 57
46 49 37
100 43 97
9fn
9049
9991
44 40 35
45 11 90
99 11 48
9988 '
9980 1
9049
90
1
Sun
Venna
Regnlna
S^urn
W.
W.
E.
E.
51 40 43
14 43 3
37 38 98
9136 38
94ia
9017
53 4 10
16 4 13
36 836
90 6 11
9947
9104
9090
9007
54 97 97
17 95 17
34 38 59
88 35 54
9900
9400
9040
9006
55 50 34
18 46 16
33 9 36
87 5 47
9904
9479
9009
9019
1
91
1
Sun
Vanna
Pollux
Reffnina
S^iea
W.
W.
W.
E.
E.
69 43 55
95 99 50
11 16 9
95 46 18
79 37 95
9400
9400
9000
9110
9049
64 6 11
96 50 16
19 44 39
94 18 97
78 8 9
9400
9809
9080
9190
9001
65 98 91
98 10 37
14 13 6
99 50 54
76 38 59
9411
9807
9078
9147
9080
66 50 95
99 30 53
15 41 49
91 93 41
75 9 56
94n
9611
9078
910)
9001
199
1
!
1
Sun
Venna
Pollux
Spica
W.
W.
w.
E.
73 39 99
36 1190
93 4 47
67 45 56
9494
9090
9079
9079
75 1 7
37 31 16
94 33 99
66 17 90
9490
9M0
0080
9091
76 99 43
38 51 11
96 156
64 48 47
9487
9098
9080
77 44 18
40 11 4
97 30 30
63 90 15
9490
9699
9090
93
i
Sun
Venna
PoUnx
Spiea
Antarea
W.
w.
w.
E,
E.
84 39 1
46 50 35
34 53 30
55 57 50
101 48 54
9490
9074
9079
85 53 37
48 10 39
36 99 11
54 99 19
100 90 10
9494
9091
9079
9000
9090
87 15 15
49 30 33
37 50 55
53 0 47
98 6193
9ai
9610
9000
9000
9097
88 36 56
50 50 37
39 19 49
51 39 13
97 99 33
9490
9616
9090
9078
9090
XIV.
MAY, 1855.
79
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
1^
Star's Nima
and
Position.
Midnight
P. L.
of
Diff
XVh.
P. L.
of
DiflT.
xvmh.
P.L.
of
Diflr.
XXP>.
P. L.
of
Diff
AnUres
a AquHa
a Pegasi
Sun
W.
W.
E.
E.
O 1 M
82 14 15
45 11 30
32 530
78 27 29
taM
4413
41B4
O » M
84 024
46 16 40
30 56 49
76 48 28
1396
4988
4888
9507
O 1 h
85 46 31
47 23 44
29 51 26
75 9 29
9996
4176
4650
9566
O 1 ft
87 32 36
48 32 33
28 49 44
73 30 31
9988
4074
4947
9000
10
Antares
a Aquilao
Sun
W.
W-
E.
96 22 27
54 38 42
65 16 21
S6B5
9610
98 8 16
55 55 34
63 37 39
8641
9619
9954 2
57 13 24
61 59 1
9819
8800
9616
101 39 44
58 32 9
60 20 27
9816
86a
9610
n
aAquile W.
Fomalhaut W.
Jupiter W.
Sun £.
65 16 52
31 20 40
28 41 38
52 8 44
saTS
8091
9418
9686
66 39 34
32 50 27
30 24 54
50 30 38
8364
9869
9418
9641
68 2 43
34 2128
32 8 10
48 52 39
8888
9011
9413
9646
^ 69 26 16
35 53 33
33 51 26
47 14 45
8814
9860
9414
9660
12
a Aquil* W.
Fomalhaut W.
Jupiter W.
Sun E.
76 28 32
43 45 9
42 27 12
39 7 2
8966
9786
9497
9676
77 53 36
45 21 2
44 10 8
37 29 50
8940
9719
9181
9088
79 18 47
46 57 16
45 52 58
35 52 47
S946
9706
9486
9600
80 44 2
48 33 48
47 35 42
34 15 54
89a
9441
9607
13
aAquils W.
Fomalhaut W.
Jupiter W.
Sun E.
87 50 24
56 39 16
56 726
26 13 55
8^
9667
9471
9137
89 15 28
58 16 40
57 49 20
24 38 4
8989
9666
9478
9746
90 40 24
59 54 6
59 31 4
23 224
wno
9666
9486
9764
92 5 10
61 31 32
61 12 37
2126 56
8981
9867
9408
9768
18
Sun
Regulus
W.
E.
34 43 21
55 55 36
8907
9Bn
36 922
54 22 48
8910
9880
37 35 9
52 50 15
8931
9801
39 0 42
51 17 57
8949
9018
19
S^N
Regulus
Spica
W.
E.
E.
46 5 0
43 40 17
97 40 22
89go
9»71
9861
47 29 13
42 9 28
96 9 8
8806
9069
48 53 15
40 38 54
9438 7
8810
9994
9070
50 17 5
39 8 34
93 7 17
8890
8006
9979
20
Sun
Venua
Regulus
Spica
W.
W.
E.
E.
57 13 32
20 7 10
31 40 27
85 35 49
8879
8479
806i
8019
58 36 20
2127 58
30 11 31
84 6 0
8870
8488
8076
8096
59 59 0
22 48 41
28 42 51
82 36 20
8887
8188
8067
8084
61 21 31
24 9 18
27 14 26
81 6 49
8808
8401
8101
8080
21
Sun
Venus
Pollux
Regulus
Spica
W.
W.
W.
E.
E.
68 12 23
30 51 5
17 10 19
19 56 50
73 40 59
8491
8614
8on
8186
8066
69 34 15
32 11 14
18 38 57
18 30 26
72 12 6
8496
8616
8on
8914
8060
70 56 3
33 31 20
20 7 35
17 4 34
70 43 18
8498
86J0
8078
8947
8078
72 17 48
34 5122
21 36 12
15 39 20
69 14 35
oai
8694
8079
8186
8076
22
Sun
Venus
Pollux
Spica
W.
W.
W.
E.
79 5 51
41 30 57
28 59 4
61 51 45
8438
8698
8079
80St
80 27 24
42 50 50
30 27 39
60 23 16
8480
8697
8079
8066
8148 56
44 10 44
3156 14
58 54 48
8480
8696
8078
8064
83 10 28
45 30 39
33 24 51
57 26 19
8488
86-26
8076
8064
23
Sun
Venus
Pollux
Spica
AnUTCS
W.
W.
W.
E.
E.
89 58 41
52 10 45
40 48 34
50 3 36
95 53 40
8494
8610
8009
8076
8060
91 20 30
53 30 58
42 17 30
48 34 56
94 24 42
8490
8606
8008
8079
8067
92 42 24
54 51 16
43 46 31
47 6 12
92 55 40
8416
8501
8068
8066
8068
94 4 23
56 11 39
45 15 38
45 37 23
91 26 33
8411
8406
8048
8066
8oa
80
MAY, 1855.
XV.
GREENWICH MEAN TIME. ;
LUNAR DISTANCES.
y
Star's Nuns 1
P. L.
P. U
P. L.
P. L.
•lid
Noon.
of
nih.
of
Vlh.
of
IXK
of
PMitkHi
Diff
Diff
Dlff.
Diff
24
Sun
W.
O 1 II
96 26 27
S404
O 1 u
96 48 39
9998
0 1 II
98 10 68
8393
0 1 II
99 33 24
«.
Venus
W.
67 32 8
848»
68 62 44
zm
60 13 28
8175
61 34 20
8408
Pollux
w.
46 44 61
KMS
48 14 11
9090
49 43 39
8030
61 13 14
8033
Spica
E.
44 8 30
S060
42 39 32
9000
41 10 fe8
8051
39 41 18
8046 1
Aotares
E.
89 67 20
KMS
8828 0
9090
86 68 32
8000
85 28 66
8039
35
Sun
W.
106 27 62
SMI
107 61 16
9331
109 14 62
8890
110 38 40
8910
Venus
W.
68 20 67
S43S
69 42 48
U12
71 4 61
9401
72 27 6
8300
Pollux
W.
68 43 30
»83
60 14 4
9974
61 44 49
9904
63 16 47
9064
Re^us
.w.
22 38 49
aoTO
24 7 35
90M
26 36 44
9034
27 6 15
8017
Spies
E.
32 13 46
1017
30 43 54
9011
29 13 65
9000
27 43 60
8000
Antares
E.
77 68 41
9M4
76 28 8
9074
74 57 23
9005
73 26 26
9064
a Aquile
E.
121 12 69
4300
120 4 39
4100
118 66 35
4115
117 45 48
4078
96
Sun
W.
117 40 67
S940
119 6 8
ri90
120 31 35
8339
121 67 18
8300
Venus
W.
79 21 43
asj8
80 45 22
9313
82 9 18
8300
83 33 30
3185
Pollux
W.
70 64 2
tm
72 26 25
98&I
73 59 4
9873
76 31 69
9850
Re^ulus
W.
34 39 1
90S7
36 10 33
9091
37 42 25
9005
39 14 37
9800
Antares
E.
66 48 23
3898
64 16 2
9887
62 43 26
9874
61 10 34
9801
a AquiUs
E.
11147 11
1880
110 33 40
9HflO
109 19 35
8894
108 4 58
8796
97
Sun
W.
129 10 6
S136
130 37 32
9190
132 6 17
8105
133 33 20
8000
Venus
W.
90 38 48
t90O
92 4 46
8103
93 31 3
8178
94 57 38
3M3
Pollux
W.
83 20 62
S700
84 65 33
9775
86 30 33
9703
88 5 51
r47
Regulus
W.
47 0 28
S814
48 34 38
9708
50 9 8
9783
61 43 59
9706
Antares
E.
63 21 69
f704
61 47 23
9780
60 12 29
9700
48 37 16
9761
a AquiUs
E.
101 44 35
S804
100 27 10
9090
99 9 18
8017
97 61 2
8600 .
.^
Venus
W.
102 16 34
1078
103 44 10
8009
106 13 6
8040
106 42 23
8010
Pollux
W.
96 720
9Bn
97 44 38
9000
99 22 18
9040
101 0 18
9030
Regulus
W.
69 43 25
9087
6120 22
9079
62 67 40
9965
64 35 20
9640
Antares
E.
40 36 21
SOTO
38 69 11
9009
37 2141
9040
35 43 52
9086
a AquiUs
E.
91 14 18
MM
89 63 58
8480
88 33 21
8474
87 12 28
84SS
90
Venus
W.
114 14 0
0044
116 45 23
9090
117 17 6
9019
118 49 10
989S
Regulus
W.
72 48 67
1509
74 28 44
9040
76 8 53
9881
77 49 23
96n
Spica
W.
18 66 13
9017
20 34 18
9000
22 13 1
9804
23 52 18
9601
Anures
E.
27 29 66
9M5
26 50 13
9503
24 10 12
9640
29 29 64
90*
a Aquile
E.
80 24 65
S4I0
79 2 55
8410
77 40 60
8407
76 18 41
8406
Fomalhaut R. |
109 46 48
r44
108 11 6
9715
106 34 69
9707
104 68 28
9080
Jupiter
E.
111 6 32
9081
109 27 13
9507
107 47 33
9561
106 7 31
96n
SO
Regttlus
W.
86 16 67
9440
87 69 271 9431
89 42 17
9410
91 25 26
9406
Spica
W.
32 16 4
9400
33 68 6 9440
36 40 32
943J
37 23 20
9417
a Aquile
E.
69 28 5
9494
68 6 16 9436
66 44 39
8440
65 23 18
8406
Fomalhaut E.
96 50 9
9000
95 11 25 9aM
93 32 22
9500
91 53 0
9.07 !
Jupiter
£.
97 42 16
*m
96 0 12 94W
94 17 49
am
9236 7
S494 1
31
Spica
W.
46 2 27
9300
47 47 13 t!»
49 39 16
9938
61 17 35
9317
a Aquile
E.
58 42 23
9000
67 23 52; 9043
56 6 4, 8OHO
54 49 5
8741
Fomilhaut K.
83 31 52
9AI0
81 50 531 M)i
80 9 41 u»i
78 28 17
94S5
Jupiter
a P«»paai
E.
83 67 4
9901
82 12 36 jm3
80 27 63 3311
78 42 51
9333
_
E.
103 31 57
97 »
101 55 52
.r."J
100 19 27 9nM
98 42 42
i
.^i
XVI.
MAY, 1855.
81
GREENWICH MEAN TIME.
LUNAR DISTANCES.
»1
Sur'tNaoM 1
P. L.
PL
P.I*
p. L.
and
Midnight.
or
XVh.
of
xvnih.
of
XXIh.
of
1^
24
PbsiUoa
DiC
pur.
Diff.
Diir.
Sun
W.
O 1 II
100 55 59
8876
O 1 II
102 18 43
8808
O 1 It
103 41 36
8850
O 1 u
105 4 39
8851
Venus
W.
62 55 20
8400
64 16 29
8451
65 37 48
8443
66 59 17
8433
Pollux
W.
52 42 58
8016
54 12 51
8006
55 42 54
8000
57 13 7
3009
Spica
E.
38 12 1
8089
36 42 37
8084
35 13 7
8039
33 43 30
8038
Antarea
E.
83 50 11
8016
82 29 18
8009
80 59 16
8001
79 29 4
3009
25
Sun .
W.
112 2 40
8996
113 26 54
8366
114 5122
8975
116 16 3
8964
Venus
W.
73 49 34
8870
75 12 15
8866
76 35 10
8854
77 58 19
8841
Pollux
W.
64 46 58
3043
66 18 24
3091
67 50 3
9931
69 21 55
9909
Regulus
W.
2836 7
9000
30 6 21
9063
31 36 55
9967
33 7 49
9958
Spica
E.
26 13 37
9006
24 43 18
9003
28 12 55
9989
21 42 28
9987
Antares
E.
71 55 16
9044
70 23 63
3034
68 52 17
9934
67 20 28
9011
a Aquike
E.
116 35 20
4084
115 24 14
8096
114 12 29
3906
118 0 8
8993
26
Sun
W.
123 23 18
8104
124 49 34
8180
126 16 7
8166
127 42 57
8150
Venus
W.
84 57 59
8971
86 22 44
8356
87 47 48
8341
89 13 9
8335
Pollux
W.
77 5 U
9B46
78 38 40
3983
80 12 26
9818
81 46 30
9805
Regulus
W.
40 47 9
9076
42 20 0
3800
43 53 10
9845
45 26 39
9880
Antares
E.
59 37 25
9848
58 3 59
3635
56 30 17
9031
54 56 17
9806
a AquiUe
E.
106 49 51
8760
105 34 15
8780
104 18 9
8713
103 1 35
8688
37
Sun
W.
135 1 43
8078
136 30 25
8056
137 59 26
8043
139 28 47
8096
Venus
W.
96 24 33
8146
97 51 48
8139
99 19 23
3113
100 47 18
8005
Pollux
W.
89 41 29
9783
91 17 26
3716
92 53 44
9701
94 30 22
9687
Regulus
W.
53 19 11
9761
54 54 43
9785
56 30 36
3719
58 6 50
9704
Antares
E.
47 1 44
JI86
45 25 52
9732
43 49 41
9707
42 13 11
9603
a Aquils
E.
96 32 23
8076
95 13 23
8606
93 54 1
8538
92 34 19
8631
28
Venus
W.
108 12 1
8011
109 42 0
9996
111 12 19
9078
112 42 59
3069
Pollux
W.
102 38 38
9611
104 17 19
9604
105 56 21
9579
107 35 45
9564
Regulus
W.
66 13 20
9634
67 51 42
9606
69 30 26
9008
71 9 31
9ffn
Antares
E.
34 5 44
9630
32 27 16
9605
30 48 28
9901
29 9 21
9570
a Aquile
E.
85 51 21
8461
84 30 2
8480
83 8 30
8480
81 46 47
8433
29
Venus
W.
120 21 34
9080
121 54 18
9865
123 27 22
9849
125 0 46
9886
Regulus
W.
79 30 12
9003
81 11 23
9487
82 52 55
9473
84 34 47
9460
Spica
W.
25 32 7
9889
27 12 26
9510
28 53 13
9500
30 34 26
9483
Antares
E.
20 49 21
9618
19 8 33
9510
yl7 27 33
^72 12 9
9508
15 46 24
30OU
a Aquile
E.
74 56 30
M06
73 34 19
8406
8410
70 50 4
8415
Fomalhaut E. |
103 21 33
9671
101 44 14
9665
100 6 34
9630
98 28 32
3634
Jupiter
E.
104 27 9
3633
102 46 26
9007
101 5 93
9498
9924 0
9478
30
Regius
Spica
W.
93 8 54
9808
94 52 39
9880
96 36 42
9868
98 21 2
9807
W.
39 6 30
9408
40 50 0
9889
42 33 50
9876
44 17 59
9368
a Aquile
E.
64 2 15
8486
62 41 34
8506
61 21 19
8585
60 1 34
8566
Fomalhaut E. |
90 13 20
9664
88 33 22
9543
86 53 7
9681
85 12 37
9630
Jupiter
E.
90 52 6
9410
89 8 46
9806
87 25 9
9387
85 41 15
9875
31
Spica
W.
53 3 10
9800
54 49 1
9306
56 35 6
9387
58 21 25
9978
a Aquils
E.
53 33 1
8700
52 17 58
8866
51 4 4
8041
49 51 26
4036
Fomalhaut E.
76 46 43
9178
75 4 59
9473
73 23 6
3467
71 41 6
9463
Jupiter
aPegasi
E.
76 57 41
9839
75 12 14
3318
73 26 34
3804
71 40 40
9806
E.
97 538
9600
95 28 17
9666
93 50 41
9646
92 12 51
9688
11
82
JUNE, 1855.
I.
AT GREENWICH APPARENT NOON.
S
^
1
Fri.
Sat.
Sun.
I
I
Mon.
iTues.
Wed.
Thur.
I Fri.
Sat.
\sun.
JMon.
'Tues.
I
,Wed.
Thur.
jFrL
Sat.
Sun.
Mon.
Tues. 19
Wed. 20
Thur. 21
Fri.
Sat
Sun.
Mon. 25
Tues. 26
Wed. |27
Thur. 28
Fri. ,29
Sat 30
Sun.
31
THE SUN'S
Rlfht
AppOTtHt
hi AT^naioo.
h. m. •
4 35 2.50
4 39 7.99
4 43 13.88
4 47 20.16
4 51 26.80
4 55 33.80
4 59 41.14
5 3 48.82
5 7 56.80
5 12 5.05
5 16 13.55
5 20 22.29
5 24 31.24
5 28 40.37
5 32 49.65
5 36 59.06
5 41 8.56
5 45 18.13
5 49 27.75
5 53 37.39
5 57 47.01
6 1 56.60
6 6 6.14
6 10 15.59
6 14 24.93
6 18 34.16
6 22 4SJ25
6 26 52.17
6 31 0.89
6 35 9.41
6 39 17.71
Dtrr. for
1 boor.
10.119
10.286
10.258
10.269
10.284
10.298
10.812
10.824
10.886
10.847
10.867
10.867
10.875
10.882
10.888
10.898
10.397
10.899
10.899
10.899
10.398
10.897
10.891
10.890
10.886
10.880
lOJTTS
10.866
10.858
10.849
10.840
Declination.
NJ22 1 23.4
22 9 28.9
22 17 11.3
22 24 30.5
22 31 26.2
22 37 58.4
22 44 6.9
22 49 51.6
22 55 12.3
23 0 8.9
23 4 41.3
23 8 49.2
23 12 32.7
23 15 51.7
23 18 46.1
23 21 15.8
23 23 20.6
23 25 0.7
23 26 16.0
23 27 6.5
23 27 32.0
23 27 32.7
23 27 8.6
23 26 19.7
23 25 6.0
23 23 27.7
23 21 24.7
Diflr.
for
I hour.
20.71
19.75
18.78
17.81
16.84
15.85
14.86
18.87
12.87
11.86
10.85
9.84
8.82
7.79
6.76
5.73
4.70
8.66
2.62
1.58
0.54
Semi-
dlamecar.
15 48.34
15 48.20
15 48.07
15 47.94
15 47.82
15 47.70
15 47.58
15 47.47
15 47.36
15 47.25
15 47.15
15 47.06
15 46.97
15 46.88
15 46.80
15 46.72
15 46.65
15 46.58
15 46.52
15 46.47
15 46.42
0.49 15 46.38
1.52 15 46.34
2.55 15 46.31
8.58 15 46.28
4.6 r 15 46.25
5.63 15 46.23
23 18 57.1 6.65' 15 46.21
23 16 5.0 7.67 15 46.19
23 12 48.3 8.69 15 46.18
NJ83 9 7.4
9.71
15 46.17
Stdereel
Time
of the
SMnidi-
p««in«
ttie
Merid.
68.34
68.40
68.45
68.50
68.55
68.60
68.64
68.68
6a72
68.76
68.79
68.82
68.85
68.87
68.89
68 90
68.91
68.92
68.93
68.93
68.93
68.92
68.92
68.91
68.90
68.88
68.86
68 84
68.82
68.79
68.76
Bqaationof
Time,
to be
Bubtfttettd
^to$H
Apparem
Time.
2 34.17
2 25.26
2 15.94
Dts:
for
0.363
0.380
0.896
2 6.25 0.412
1 56.20
1 45.79
1 85.04
1 23.95
1 12.i
56^.
1 0.90
0 48.99
0 36.84
0 24.47
0 11.93
0 0.75
0 13.56
0 26.48
0 39.46
0.427
0.441
0.455
0.468
).48(^
0.492
0.502
0.511
0.519
0.525
0.581
I
0.585 1
0.639|
0.542
0 52.48l0.543,
1 5.52 0.5421
1 18.55 0.541 1
I
0.540
0.538
1 31.55
1 44.49
1 57.34 0.584
2 10.09 0.529
2 22.72!0.524
2 35.22|o.5i8
I '
2 47.54 0.510
2 59.66 0.501;
3 11.60 0.491
3 23.31
0.481
Note. - Mwn Time of the SemldiuDeter pMiinf may be found by eobirKtlnc Oe, 18 fnm the SUenal Ttana.
II.
JUNE, 1855.
83
GREENWICH MEAN TIME.
1
"s
THE M(X)N*S
Horisontal Panllu.
Meridlui Fuwgn.
Age.
Noon.
MidnichL
Noon.
Diflr. for
Ihour.
Midnight.
Oiir. for
I hour
DItf for
1 hour.
1
2
3
16 10.7
16 16.9
16 19.9
1^ 14.2
16 18.8
16 20.3
59 14.8
59 37.1
59 48.4
-1-1.15
0.70
-M).26
59 27.3
59 44.1
59 50.0
-H).98
0.48
-hO.OS
h. m.
13 20.2
14 23.9
15 26.4
m.
2.61
2.68
2.58
d.
16.4
17.4
18.4
4
5
6
16 20.1
16 17.7
16 13.2
16 19.2
16 15.7
16 10.4
59 49.1
59 40.2
59 23.9
—0.18
0.54
0.80
59 45.7
59 32.8
59 13.6
—0 87
0.68
0.90
16 25.5
17 20.3
18 11.3
2.87
2.20
2.06
19.4
20.4
21.4
7
8
9
16 7.3
16 0.4
15 53.0
16 3.9
15 56.8
15 49.1
59 2.3
58 37.2
58 10.0
0.98
1.10
1.17
58 50.1
58 23.8
57 55.8
1.05
1.14
1.20
18 59.3
19 45.9
20 32.2
1.97
1.98
1.95
22.4
23.4
24.4
10
1 12
15 45.1
15 37.0
15 28.8
15 41.1
15 32.9
15 24.8
57 41.3
57 11.7
56 41.7
1.21
1.24
1.26
57 26.6
56 56.8
56 26.6
1.23
1.25
1.25
21 19.6
22 8.8
23 0.2
2.01
2.11
2.18
25.4
26.4
27.4
13
14
15
15 20.7
15 12.8
15 5.3
15 16.7
15 9.0
15 1.8
56 11.7
55 42.6
55 15.2
1.28
1.18
1.08
55 57.0
55 28.6
55 2.6
1.21
1.14
1.01
23 53.4
6
0 47.3
2.23
2.23
28.4
29.4
0.9
16
17
18
14 58.6
14 53.2
14 49.4
14 56.7
14 51.1
14 48i2
54 50.9
54 31.1
54 17.1
0.92
0.71
0.48
54 40.4
54 23.2
54 12.9
0.82
0.58
—0.26
1 40.5
2 31.6
3 19.8
2.17
2.07
1.94
1.9
2.9
3.9
19
20
21
14 47.6
14 48.2
14 51.4
14 47.6
14 49.6
14 54.0
54 10.8
54 12.8
54 24.5
—0.09
4-0.28
0.69
54 10.7
54 17.4
54 34.1
-H).09
0.48
0.90
4 4.9
4 47.5
5 28.4
1.82
1.74
1.69
4.9
5.9
6.9
22
23
24
14 67.3
15 5.9
15 16.9
15 1.3
15 11.1
15 23.2
54 46.1
55 17.3
55 57.6
1.10
1.49
1.88
55 0.5
55 36.4
56 20.5
1.80
1.67
1.96
6 8.6
6 49.2
7 31.5
1.68
1.72
1.82
7.9
8.9
9.9
25
26
27
15 29.7
15 43.8
15 58.1
15 36.6
15 51.0
16 4.9
56 44.8
57 36.4
58 28.9
2.06
2.18
2.18
57 10.3
58 2.7
58 53.8
2.15
2.18
2.01
8 16.9
9 6.7
10 1.8
1.98
2.18
2.41
10.9
11.9
12.9
28
29
30
16 11.3
16 22.2
16 29.9
16 17.1
16 26.5
16 32.2
59 17.0
59 56.8
60 24.6
1.85
1.44
0.86
59 38.1
60 12.5
60 33.0
1.66
1.16
-H).54
11 2.3
12 6.5
13 11.5
2.59
2.69
2.66
13.9
14.9
15.9
81
16 33.3
16 33.4
60 37.5
-H).20
60 37.9
-H).12
14 14.2
2.52
16.9
84
JUNE, 185d.
III.
GREENWICH MEAN TIME. |
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour
DIff
forlm.
DeclimUoo.
Diff.
forlm.
Boor.
Right AKflDdon.
Diflr.
forlm.
DedfaMtkliL
DUE
forlm.
FR
IDAY
1.
•
SUNDAY
8.
h. m •.
f.
O 1 N
n
h. m. 1.
•.
O 1 n
II
0
17 34 80.74
%MK
S.36 31 13.3
4.00T
0
19 33 33.91
94707
S.96 36 50.9
4440
1
17 36 58.90
3.6S83
36 35 48.9
4.618
1
19 36 14.59
94703
96 39 19.8
4.797
9
17 39 37.37
9.64S3
36 40 14.6
4.337
3
19 38 55.06
9^/7
96 87 83.5
4416
3
17 33 16.14
2.W82
36 44 39.3
4.164
3
19 41 35.30
94686
36 38 88.9
6.109
4
17 34 55.30
9.6A38
36 48 33.1
SJ70
4
19 44 15.99
94647
86 17 11.1
6.986
5
17 37 34.53
%»m
36 53 35.9
8.780
5
19 46 55.05
9.6606
96 1148.3
6479
6
17 40 14.11
3.0616
36 56 7.7
8.009
6
19 49 34.57
94664
36 6 14.4
6466
7
17 42 53.94
3.a067
36 59 38.4
S.4I0
7
19 59 13.83
94691
36 0 89.6
6438
8
17 45 34.01
3.6097
37 3 57.8
3.938
8
19 54 59.83
94476
85 54 33.9
6490
9
17 48 14.33
9.ff7M
37 6 5.9
8.030
9
19 57 31.53
94498
85 48 37.3
6.900
10
17 50 54.88
3.0T78
37 9 2.6
9.661
10
80 0 9.94
94380
35 43 9.9
6478
11
17 53 35.65
%mo9
87 1148.0
9.063
11
30 3 48.08
94S39
85 35 41.8
6466
12
17 56 16.63
3.0B49
37 14 33.3
9.476
13
30 5 85.93
94983
35 39 3.3
6.731
13
17 58 57.81
2.0W6
37 16 45.0
9.9BS
13
30 8 3.48
94S83
35 39 14.1
6406
14
18 1 39.17
9.0B05
37 18 56.2
%M0
14
80 10 40.71
94181
35 15 14.5
7478
15
18 4 30.70
9.0B83
27 20 55.8
1.806
15
80 13 17.68
94196
35 8 4.5
7.961
16
18 7 3.39
9.0066
27 22 43.7
1.703
16
30 15 54.19
9407O
95 0 44.9
7493
J *^
1^ 9 44.33
3.0089
37 34 30.1
1.610
17
30 18 30.43
94018
94 53 13.7
7409
1 18
18 13 36.31
3.7006
37 85 44.9
1417
18
80 81 6.34
94066
94 45 33.1
7.760
19
18 15 8.31
9.709*
37 36 58.1
1.199
19
30 83 41.91
948R8
94 37 49.6
7487
30
18 17 50.53
9.7044
37 37 59.6
0.096
30
30 36 17.13
94840
94 99 49.1
8401
31
18 30 33.86
9.7061
87 28 49.3
a798
81
30 38 53.00
94780
94 9131.7
8.966
33
18 23 15.29
9.7075
27 29 27.1
0.689
83
80 31 86.50
94790
84 13 11.6
8416
33
18 25 57.80
SAT
9.7088
8 27 39 53.1
lY 2.
0436
33
80 34 0.64
MO
94660
NDAl
S.84 4 41.8
r 4.
8476
0
18 38 40.38
9.7000
S27 30 7.3
0.136
0
80 36 34.43
94600
S83 56 9.5
8.733
I
18 31 33.02
9.7108
27 30 9.7
0.060
1
80 39 7.83
94667
93 47 13.8
8400
i 2
18 34 5.71
9.7116
27 30 0.2
0.967
3
30 41 40.86
94473
93 38 15.7
04)46
3
18 36 48.44
9.7190
27 29 38.9
0.466
3
30 44 13.50
94408
93 99 8.4
0.106
1 4
18 39 31.19
9.7194
27 29 5.7
0.669
4
30 46 45.76
94343
93 19 51.9
0460
5
18 43 13.94
9.7196
27 28 30.6
0.840
5
90 40 17.63
34978
93 10 86.3
0400
6
18 44 56.70
9.7197
37 37 23.7
14)46
6
30 51 49.11
9.6913
33 0 51.8
0448
7
18 47 39.45
9.7196
27 26 15.0
1.943
7
30 54 80.20
94148
33 51 8.5
0.706
, 8
18 50 32.18
9.7193
27 84 54.5
1.440
8
30 56 50.89
94089
33 41 16.4
0.M0 ;
1 9
18 53 4.87
9.7114
37 23 22.1
1.638
9
30 59 81.17
94014
32 31 15.7
10463 1
1 ^^
18 55 47.53
9.7 lOS
27 21 37.9
1.836
10
31 1 51.05
94046
33 81 6.4
10.996
I n
18 58 30.12
9.T0W
37 1941.8
94)39
11
31 4 90.53
94678
33 10 48.6
10466
13
19 1 12.66
9.7081
37 17 33.9
9.iU0
13
91 6 40.60
9461 1
39 0 99.5
10409
13
19 3 55.12
9.7068
37 15 14.3
9>496
13
91 9 18.97
94743
91 49 48.9
10436 ;
1 11
19 6 37.49
9.7069
37 12 42.9
94190
14
21 11 46.53
94676
91 39 5.8
10.773
! 16
19 9 19.75
9.70M
27 9 59.8
9.816
15
21 14 14.38
94606
91 98 15.4
10406
16
19 13 1.91
9.7014
37 7 5.0
34)10
16
31 16 41.81
94637
91 17 17.1
11437
; 17
19 14 43.94
9.0001
37 3 58.5
3.906
17
81 19 8.83
94467
91 6 11.0
ll.Wfl
18
19 17 35.85
9.0071
37 0 40.5
3406
18
31 31 35.43
94306
90 54 57.1
11406
19
19 30 7.62
9.0047
36 57 11.0
r.»7
19
31 34 1.61
94390
90 43 35.6
11490 1
30
19 23 49.21
9.0090
36 53 30.9
3.770
30
31 96 97.38
94900
90 39 6.7
1140
91
19 25 30.68
94H0I
26 49 37.3
3471
91
91 98 59.74
94101
90 90 30.4
11460
33
19 38 11.94
9«M)
96 45 33.2
4.101
93
91 31 17.68
94199
90 8 46.8
11.786
33
19 30 53.02
%»»
26 41 17.7
44a«
33
91 33 49.91
9.4063
19 56 56.0
11403
i
19 33 33.91
9.0707
- 96 36 50.9
4440
34
91 36 6.33
94084
&10 44 58.9
19.'>J0
IV.
JUNE, 1855.
85
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Ascenalon.
Dwr.
forlm.
DecUnatioo.
fbrlm.
flour.
Right AacMMloa.
DIff.
for 1 m.
DsdinaUon.
Piff.
for I m.
TUI
:SDA1
r 5.
THURSDAY 7.
h. m. f.
a.
O f ff
tf
h. m. •.
■.
O 1 II
u
0
21 36 6.32
3J984
S.19 44 58.2
19.010
0
23 24 2.83
3.1380
a 8 27 37.4
15,^W8
1
21 38 30.02
9.8015
19 32 53.6
13.185
1
23 26 10.09
9.1190
8 12 3.3
15.666
2
21 40 53.30
2J847
19 20 42.2
13.348
2
23 28 17.11
9.1151
7 56 27.2
154)17
3
21 43 16.17
3J778
19 8 24.0
13Jie
3
23 30 23.90
3.1118
7 40 49.3
15.647
4
21 45 38.62
3.8110
18 55 59.2
13.467
4
23 32 30.46
9. ion
7 25 9.7
15.677
5
21 48 0.67
3.8643
18 43 27.9
19.«75
5
23 34 36.81
9.1043
7 9 28.3
15.705
6
21 50 22.32
3.8i77
18 30 50.2
19.881
6
23 36 42.95
9.1007
6 53 45.3
15.781
7
21 52 43.57
3.3510
1818 6.2
19.785
7
23 38 48.88
9.0673
6 38 0.7
15.755
8
21 55 4.41
3.8443
18 5 16.1
19.887
8
23 40 54.60
9.0986
6 22 14.7
15.778
9
21 57 24.84
3,8874
17 52 19.9
19.987
9
23 43 0.12
9.0905
6 6 27.3
15.601
10
21 59 44.88
3.8807
17 39 17.8
18.065
10
23 45 5.44
9.0678
5 50 38.7
15.839
11
22 2 4.52
3.8341
17 26 9.8
18.183
11
23 47 10.58
9.0613
5 34 48.9
15341
12
22 4 23.77
3.8175
17 12 56.0
18.3n
12
23 49 15.54
3.0813
5 18 58.0
15368
13
22 6 42.62
3.8110
16 59 36.6
18.870
13
23 51 20.32
34n83
5 3 6.0
15375
14
22 9 1.08
3.8045
16 46 11.7
18.461
14
23 53 24.92
3.0758
4 47 13.1
15.890
15
22 11 19.15
3.3960
16 32 41.4
18.550
15
23 55 29.34
9U)735
4 31 19.4
15308
16
22 13 36.84
3.3017
16 19 5.8
18.687
16
23 57 33.60
9.0606
4 15 24.9
15315
17
22 15 54.15
3.3855
16 5 25.0
18.738
17
23 59 37.70
94)671
3 59 29.7
15337
18
22 18 11.09
3.3798
15 5139.1
18.807
18
0 1 41.64
9U)646
3 43 33.9
153ST
19
22 20 27.66
3.3783
15 37 48.3
18.889
19
0 3 45.43
94)633
3 27 37.5
153a
20
22 22 43.86
3-3OT0
15 23 52.6
18.070
20
0 5 49.08
34)698
3 1140.7
15360
21
22 24 59.68
3.3000
15 9 52.0
14.060
21
0 7 52.59
34)675
2 55 43.5
15364
22
22 27 15.14
3.3548
14 55 46.7
14.138
22
0 9 55.97
34)558
2 39 46.1
15366
23
22 29 30.24
3.3488
S.14 41 36.9
14.908
23
0 11 59.22
34)588
S. 2 23 48.6
15366
WED
NESD
AY 6.
F«
JDAY
8.
0
22 31 44.98
3.3138
&14 27 22.6
14.977
0
0 14 2.35
34)518
a 2 7 51.0
15360
1
22 33 59.36
3.3870
14 13 3.9
14.849
1
0 16 5.36
34)404
1 51 53.5
15360
2
22 36 13.40
3.3313
13 58 41.0
14.419
2
0 18 8.26
34M76
135 5^.0
15.019
3
22 38 27.10
3.3365
13 44 13.9
14.487
3
0 20 11.05
34)458
1 19 58.5
15387
4
22 40 40.45
3.3198
13 29 42.7
14.568
4
0 22 13.74
34M43
1 4 1.2
16.953
5
22 42 53.47
3.3148
13 15 7.6
144117
5
0 24 16.34
34M97
0 48 4.3
15347
6
22 45 6.16
3.3068
13 0 28.7
14.660
6
0 26 18.85
34)413
0 32 7.7
15340
7
22 47 18.52
3.3084
12 45 46.1
14.743
7
0 28 21.29
34)898
0 16 11.5
15388
8
22 49 30.55
3.1960
12 30 59.7
14.804
8
0 30 23.65
34)886
a 0 0 15.8
15.995
9
22 51 42.26
3.1935
12 16 9.7
14.864
9
0 32 25.93
94075
N. 0 15 39.4
15315
10
22 53 53.66
3.1880
12 116.1
14.093
10
0 34 28.14
94)865
0 3133.9
15304
11
22 56 4.75
3.1896
1146 19.1
14.9n
11
0 36 30.30
94055
0 47 27.7
15393
12
22 58 15.54
3,1774
11 31 18.9
15.080
12
0 38 32.41
34)846
1 3 20.8
15378
13
23 0 26.02
3.1728
11 16 15.6
15.083
13
0 40 34.46
34)838
1 19 13.0
15363
14
23 2 36.21
9.1678
11 1 9.3
15.183
14
0 42 36.46
34)830
135 4.3
15348
15
23 4 46.10
3.1635
10 46 0.0
15.180
15
0 44 38.41
34»33
150 54.7
15331
16
23 6 55.70
3.1578
10 30 47.8
15.337
16
0 46 40.33
34»I8
2 6 44.0
15318
17
23 9 5.02
3.1583
10 15 32.8
15.378
17
0 48 42.23
9.0813
2 22 32.2
15.794
18
23 11 14.07
3.1487
10 0 15.1
15.8n
18
0 50 44.10
94)310
2 38 19.2
15.774
19
23 13 22.85
3.1443
9 44 54.8
15.860
19
0 52 45.95
94)806
2 54 5.0
15.703
20
23 15 31.36
3.1397
9 29 32.0
15.403
20
0 54 47.78
94)806
3 9 49.4
15.738
21
23 17 39.60
3.1858
9 14 6.8
15.443
21
0 56 49.59
34)804
3 25 32.2
15.703
22
23 19 47.59
3.U11
8 58 39.3
15.480
22
0 58 51.40
34)803
3 41 13.5
15375
23
23 21 55.33
3.1370
8 43 9.5
15.5n
23
1 0 53.20
34)801
3 56 53.2
15346
24
23 24 2.83
3.1380
a 8 27 37.4
15.568
24
1 2 55.00
34)801
N. 4 12 31.2
15317
86
JUNE, 1855.
V.
GREENWICH
MEAN TIME.
THF. MOON'S RIQHT ASCENSION AND DECLINATION.
Hour.
Right AM^nikm.
ibrlm.
DecUnatkm.
Difll
for Im.
Hour.
RlfhtAMMMion.
DIff.
forlm.
DeclinaUon.
forlm.
SATl
JRDA
Y 9.
MONDAY
11.
h. m. •.
•.
O 1 N
«
h. m. a.
•.
O 1 ff
«
0
1 9 55.00
9M0\
N. 4 19 31.2
16.017
0
2 41 49.85
3.1155
N.15 46 15.2
13.848
1
1 4 56.80
9Mn
4 28 7.4
1A.M7
1
9 43 56.87
3.1186
15 59 3.6
19.768
3
1 6 58.62
3.0806
4 43 41.7
16.566
2
2 46 4.07
3.I9I7
16 1146.8
13.076
3
1 9 0.46
3.OtO0
4 59 14.1
16.638
3
2 48 11.46
9.1948
16 94 24.8
19.587
4
1 11 2.32
9unit
5 14 44.4
16.468
4
2 50 19.04
9.1980
16 36 57.4
19-497
5
1 13 4.21
9uni8
5 30 12.6
16.469
5
2 52 26.81
9.1319
16 49 24.5
19.405
6
1 15 6.13
9.0838
5 45 38.6
16.416
6
2 54 34.76
9.1844
17 146.0
19.311
7
1 17 8.09
3.0S80
6 1 2.3
I6.8n
7
2 56 42.91
9.1377
17 14 1.8
19.917
8
1 19 10.08
3.0837
6 16 23.7
16.890
8
2 58 51.27
9.1411
17 26 12.0
19.118
9
1 21 12.12
34B4A
6 31 42.8
16.600
9
3 0 59.83
9.1445
17 38 16.5
194)99
10
1 23 14.21
340M
6 46 59.5
15.366
10
3 3 8.59
9.1478
17 50 15.4
11.964
11
1 25 16.36
34IM8
7 2 13.7
15.317
11
3 5 17.55
9.1519
18 2 8.7
11.838
12
1 27 18.57
umn
7 17 25.4
16.178
12
3 7 26.71
9.1545
18 13 56.3
11.741
13
1 29 90.84
3.0164
7 32 34.6
16.138
13
3 9 36.08
9.1570
18 25 37.9
11.6a
14
1 31 93.18
34M06
7 47 41.0
154)83
14
3 11 45.65
9.1613
18 37 13.5
11.5a
15
1 33 25.58
^.0107
8 2 44.6
154)67
15
3 13 55.42
9.1647
18 48 43.1
11.443
16
1 35 28.06
34M90
8 17 45.5
lAJm
16
3 16 5.40
9.1689
19 0 6.6
11.340
17
1 37 30.61
3UM16
8 32 43.4
14.640
17
3 18 15.60
9.1718
19 1123.9
11.287
18
1 39 33.25
3JM47
8 47 38.3
14.800
18
3 20 26.01
9.1753
19 22 35.0
11.133
19
1 41 35.98
3.0469
9 9 30.1
14388
19
3 22 36.62
3.1788
19 33 39.9
114)98
90
1 43 38.80
3iM77
9 17 18.8
14.786
20
3 24 47.44
3.18-23
19 44 38.4
10.999
91
1 45 41.70
3.040
9 32 4.4
14.733
21
3 26 58.47
3.1858
19 55 30.5
10.814
99
1 47 44.70
iMlO
9 46 46.7
14.678
22
3 29 9.72
3.180$
20 6 16.1
10.705
93
1 49 47.81
34M98
.V.IO 195.6
14.099
23
3 31 21.19
3.1998
N.20 16 55.1
10.506
sur
^DAY
10.
TUE
:SDAY
' 12.
0
1 51 51.04
3.064T
N.10 16 1.3
14J06
0
3 33 39.86
3.196S
N 20 27 27.5
10.486
1
1 53 54.37
3.0667
10 30 33.4
14.607
1
3 85 44.73
3.1008
20 37 53.4
10.375
9
1 55 57.89
3j06e7
10 45 9.0
14.447
9
3 37 56.81
3.3063
20 48 12.6
10.968
3
1 58 1.39
3.0607
10 59 27.0
14.386
3
3 40 9.10
9.9068
20 58 25.0
10.140
4
9 0 5.08
34)697
11 13 48.3
14.338
4
3 42 91.60
9.9109
21 8 30.6
104)36
5
9 9 8.90
9J0$4»
1128 5.8
14.360
5
3 44 34.32
9.9137
21 18 29.2
9Jm
6
9 4 19.84
9J0tm
1142 10.5
14.106
6
3 46 47.24
9.9179
21 28 20.9
9.804
7
9 6 16.91
34W3
1156 29.4
14.131
7
3 49 0.37
3.9906
2138 5.7
9.087
8
9 8 21.13
3Ur7l6
12 10 35.3
144)66
8
3 51 13.70
3.9940
21 47 43.3
9.566
9
2 10 95.50
341740
12 24 37.2
13.668
9
3 53 27.23
9.9974
21 57 13.7
9.4a
10
9 19 30.02
3.0764
12 38 35.0
13.960
10
3 55 40.97
9.9308
22 6 37.0
9.396
11
9 14 34.67
3.0768
12 52 28.6
13.860
11
3 57 54.91
9.9841
22 15 53.3
9.908
19
9 16 39.46
341619
13 6 18.0
U.786
19
4 0 9.05
3.3374
22 25 2.3
94)87
13
9 18 44.41
UKM
1320 3.1
I3.7n
13
4 9 93.39
3.9407
22 34 3.9
84)65
14
9 90 49.51
9jfmu
13 33 43.9
13.6a
14
4 4 37.99
9.9440
22 42 58.1
8.819
15
9 92 54.78
umn
13 47 20.2
18.668
15
4 6 52.65
9.9473
22 51 44.9
8.717 ,
16
9 95 0.92
34M0
14 0 51.9
13.469
16
4 9 7.58
9.3806
23 0 24.1
8.509
17
2 27 5.82
3.0M6
14 14 19.1
U.414
17
4 11 29.71
3.3588
23 8 55.8
8.466
18
2 29 11.58
34W76
14 97 41.6
13.386
18
4 13 38.02
3.3500
23 17 20.0
8.336
19
9 31 17.52
9.1006
14 40 59.3
U.366
19
4 15 53.52
3.9600
23 25 36.6
8.911
90
9 33 93.63
3.1064
14 54 19.2
13.176
90
4 18 0.90
3.9681
23 33 45.3
64)86
91
9 35 99.91
3.1068
15 07 20.2
134)06
91
4 90 95.07
3.3669
23 41 46.4
7.968
99
9 37 36.37
3. MM
15 20 93.4
U4>14
99
4 22 41.12
9.9691
23 49 39.7
7.899
33
9 39 43.02
3.I13C
15 33 21.8
19.989
23
4 24 57.35
3.9T9I
23 57 95.1
7.09
94
9 4149.85
3.1 IM
N 15 46 15.2
I3j848
94
4 97 13.76
3.1760
n94 5 9.7
7JM
VI.
JUNE, 1855.
87
GREENWICH MEAN TIME. 11
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Rifhi A«c«iwion
fori m.
Declination.
Dftf
forlm.
Hour.
Wflr.
forlm.
Ditr.
forlm.
WEDP
iESDA
lY 13.
FRIDAY
15.
h. m. «.
•.
O 1 It
V
h. m. t.
•.
1 O 1 «
0
4 27 13.76
4.«7ao
N24 5 2.7
7.603
0
6 18 26.43
3.3363
N27 2631.9
0.719
1
4 29 30.33
%^s
24 12 32.4
7.438
1
6 20 45.98
9.3953
27 27 10.8
0374
2
4 31 47.07
3.0805
24 19 54.2
7.995
2
6 23 5.46
9.8M0
27 27 41.0
0.499
3
4 34 3.98
9.988^2
24 27 8.0
7.163
3
6 25 24.87
9.3937
27 28 2.5
0.984
4
4 36 21.05
3.»d0
24 34 13.7
74»8
4
6 27 44.19
9.3919
27 28 15.3
0.189
5
4 38 38.28
9.39BA
24 41 11.3
6.898
5
6 30 3.42
93197
27 28 19.3
0305
6
4 40 55.67
3.3910
24 48 0.9
6.758
6
6 32 22.56
33180
27 28 14.7
0.149
7
4 43 13.20
3.393A
24 54 42.4
6.633
7
6 34 41.60
93163
27 28 1.5
0398
8
4 45 30.88
3.3900
25 1 15.6
6.485
8
6 37 0.53
93145
27 27 39.7
0.487
9
4 47 48.71
3.3965
25 7 40.6
6348
9
6 39 19.35
93195
27 27 9.2
0361
10
4 50 6.68
3.S008
25 13 57.4
6.310
10
6 41 38.04
93104
27 26 30.2
0.735
11
4 52 24.79
3.30S0
25 20 5.8
6.071
11
6 43 56.61
93063
27 25 42.4
0368
12
4 54 43.03
9.t0A|
25 26 5.9
5.983
12
6 46 15.05
33060
27 24 46.1
1310
13
4 57 1.39
9.8073
25 31 57.6
5.793
13
6 48 33.35
93037
27 23 41.4
1.189
14
4 59 19.87
3.3093
25 37 41.0
5.651
14
6 50 51.51
93013
27 22 28.1
1.998
15
5 1 38.48
%»m
25 43 15.9
6.510
15
6 53 9.52
9.3988
27 21 6.4
1.488
16
5 3 57.21
3.S131
25 48 42.3
5.369
16
6 55 27.38
3.3943
27 19 36.2
1378
17
5 6 16.05
3.8100
25 54 0.2
5.338
17
6 57 45.09
3.3986
27 17 57.7
1.719
18
5 8 35.00
3.3197
25 59 9.7
5.087
18
7 0 2.64
3.3910
27 16 10.9
1350
19
5 10 54.05
3JII81
26 4 10.7
4.945
19
7 2 20.02
3.3893
27 14 15.9
1388
20
5 13 13.19
3J300
26 9 3.2
4.803
20
7 4 37.23
3.3853
27 12 12.5
9,197
21
5 15 32.43
3.3315
26 13 47.0
4.658
21
7 6 54.27
3.3633
27 10 0.8
9365
22
5 17 51.76
9.33J8
26 18 22.1
4.514
22
7 9 11.12
3.3793
27 7 40.8
9.409
23
5 20 11.16
3.3340
N 26 22 48.6
4.370
23
7 U 27.79
9.9769
.N.27 5 12.7
9389
THUl
EISDA1
I 14.
SATl
JRDA^
? 16.
0
5 22 30.63
3J953
N26 27 6.5
4.996
0
7 13 44.28
9.9781
N27 2 36.4
9375
1
5 24 50.17
3.3354
26 31 15.8
4.089
1
7 16 0.59
9.9698
26 59 51.9
^810
2
5 27 9.78
3.3375
26 35 16.4
3.997
2
7 18 16.70
9.9665
26 56 59.3
9344
3
5 29 29.46
9.3385
26 39 8.2
8.791
3
7 20 32.60
3.3680
26 53 58.7
8378
4
5 31 49.20
3.3398
26 42 51.2
8.645
4
7 22 48.28
3.3505
26 50 50.0
8.911
5
6 34 8.98
3.3800
26 46 25.6
8.600
6
7 25 3.75
33560
26 47 33.3
8349
6
5 36 2H.80
3.3307
26 49 51.3
8.855
6
7 27 19.00
3.3594
26 44 8.8
8.478
7
5 38 48.66
3.3313
26 53 8.4
8.909
7
7 29 34.04
3,3487
26 40 36.5
8304
8
5 41 8.56
3.3SI8
26 56 16.6
8.063
8
7 31 48.86
3.3418
26 36 56.3
8.735
9
5 43 28.48
3.3333
26 59 16.0
9.917
9
7 34 3.44
33408
26 33 8.2
3306
10
5 45 48.42
3.3335
27 2 6.7
9.770
10
7 36 17.79
9.3369
26 29 12.3
8396
11
5 48 8.37
3.3337
27 4 48.5
9.633
11
7 38 31.90
93380
26 25 8.6
4.195
12
5 50 28.32
3.3337
27 7 21.5
9.476
12
7 40 45.77
3.3990
26 20 57.2
4.953
13
5 52 48.28
3.3337
27 9 45.7
9.330
13
7 42 59.40
3.3350
26 16 38.3
4378
14
6 55 8.24
3.38i6
27 12 1.1
3.183
14
7 45 12.79
^9308
26 12 11.8
4.504
15
5 57 28.19
3.3335
27 14 7.7
34)36
15
7 47 25.93
9.9166
26 7 37.8
4380
16
6 59 48.13
3.3333
27 16 5.5
1.889
16
7 49 38.81
9.3134
26 2 56.2
4.756
17
6 2 8.05
3.3316
27 17 54.5
1.743
17
7 51 51.44
9.9083
25 58 7.2
4378
18
6 4 27.94
3.3313
27 19 34.8
1.597
18
7 54 3.81
9.9040
25 53 10.9
5300
19
6 6 47.80
3.3307
27 21 6.3
I.45I
19
7 56 15.93
9.1997
25 48 7.2
5.199
20
6 9 7.63
3.3300
27 22 29.0
1.301
20
7 58 27.79
9.1953
25 42 56.2
5.343
21
6 11 27.41
33393
27 23 42.9
1.157
21
8 0 39.38
9.1907
25 37 38.0
5368
22
6 13 47.14
3.3383
27 24 48.0
14)11
22
8 2 50.69
9.1863
25 32 12.6
5.483
23
6 16 6.81
3.3373
27 25 44.3
0.865
93
8 5 1.74
9.1818
25 26 40.1
5303
24
I
6 18 26.43
3.8363
N 27 26 31.9
0.719
24
8 7 12.52
9.1773
N25 21 0.4
5.790
'
88
JUNE, 185».
VII.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AMMision.
Diff.
forlm.
Diff.
forlm.
Hour.
DIff.
forlm.
DecUnatkm.
Diff
fori m.
SUh
IDAY
17.
TUESDAY
19.
h. m a.
9.
O 1 II
M
h. m. •.
a.
O 1 u
M
0
8 7 12.62
5.1778
\25 21 0.4
6.790
0
9 46 14.17
1.0614
N 18 47 44.2
10498
1
8 9 23.03
9.1737
25 15 13.7
6.887
1
9 48 11.14
1.0C7I
18 37 22.6
10407
2
8 11 33.26
9.1080
25 9 20.0
6.038
2
9 50 7.85
1.0490
18 26 56.6
10471
3
8 13 43.21
2.1«W
25 3 19.4
04)66
3
9 52 4.31
1.0887
18 16 26.1
10446
4
8 15 52.87
3.1fle&
24 57 11.9
0.180,
4
9 54 0.52
1.0847
18 5 51.3
10417
5
8 18 2.26
%\m
24 50 57.5
0.306
5
9 55 56.48
1.0)07
17 55 12.2; 10487
6
8 20 11.37
3.1401
24 44 36.4
0.406
6
9 57 52.20
1.0907
17 44 28.9
10.757
7
8 22 20.20
3.1444
24 38 8.6
0>J0
7
9 59 47.69
1.0397
17 33 41.4
10497
8
8 24 28.74
9.IS07
24 3134.1
0.030
8
10 1 42.93
1.0187
17 22 49.7
10406
9
8 26 36.99
9.iaM>
24 24 52.9
0.740
9
10 3 37.93
1.0146
17 1154.0
10409
10
8 28 44.96
3.1309
24 18 5.2
0349
10
10 5 32.70
1.0110
17 0 54.2
114)90
11
8 30 62.63
3.1363
24 11 10.9
04)67
11
10 7 27.25
1.0079
16 49 50.4 11400
12
8 33 0.01
9.130A
24 4 10.2
74)05
12
10 9 21.57
1J086
16 38 42.6; ii.i«
13
8 35 7.10
3.1107
23 57 3.1
7.171
13
10 11 15.67
1.8007
16 27 30.9, 11.997
14
8 37 13.91
3.1106
23 49 49.7
7.976
14
10 13 9.54
1.6000
16 16 15.4 11.900
1 1^
8 39 20.43
9.|0M»
23 42 30.0
7.870
15
10 15 3.20
1.8034
16 4 56.1 11458
16
8 41 26.05
3.1011
23 35 4.1
7.483
16
10 16 56.64
1.6666
15 53 33.1 iMio
17
8 43 32.58
34)003
23 27 32.0
7.660
17
10 18 49.87
1.6658
15 42 6.3
11478
18
8 45 38.23
34)015
23 19 53.7
7.066
18
10 20 42.89
1.6610
15 30 35.8
11440
19
8 47 43.59
ijom
23 12 9.4
7.788
19
10 22 35.70
1.8760
15 19 1.7
ii4no
20
8 49 48.65
94)617
23 4 19.1
7.688
20
10 24 28.30
14(753
15 7 24.0
11468
21
8 51 53.42
341706
22 56 22.8
7J07
21
10 26 20.70
1.67'JO
14 55 42.8
11.710
22
8 53 57.90
941719
22 48 20.6
SMb
22
10 28 12.91
1.6088
14 43 58.1
11.778
23
8 56 2.08
94)070
N.22 40 12.5
8.188
23
10 30 4.94
1.8057,
N14 32 9.9
11480
MO
NDAY
18.
WEDl
^ESDi
iV 20.
0
8 58 5.97
94)091
N 22 31 58.6
8.960
0
10 31 56.79
1.809B
.V14 20 18.3
11407
1
9 0 9.56
94)673
22 23 39.0
6.876
1
10 33 48.45
1.8606
14 8 23.3
1140
2
9 2 12.86
94)633
22 15 13.7
8.409
2
10 35 39.92
1^006
13 56 25.1
11400
3
9 4 15.87
94Kt76
22 6 42.8
8.50-2
3
10 37 31.22
1.8630
13 44 23.7
19409
4
9 6 18.59
94)427
2158 6.3
64i66
4
10 39 22.35
1.6507
13 32 19.0
19.100
5
9 8 21.02
94060
2149 24.2
8.747
5
10 41 13.30
1.8470
13 20 11.1
19.180
6
, 9 10 23.16
94)099
2140 36.7
6.887
6
10 43 4.09
1.6453
13 8 0.0
19410
7
9 12 25.02
94h)6)
213143.8
84»97
7
10 44 54.71
1.8135
12 55 45.8
19409
8
9 14 26.59
94m7
21 22 45.5
04)17
8
10 46 45.17
1.6306
12 43 28.6
194U
9
9 16 27.88
94)190
21 1341.8
0.106
9
10 48 35.48
1.6873
12 31 8.3
19408
10
9 18 28.89
94)143
21 4 32.8
O.IM
10
10 50 25.64
1.6847
12 18 45.0
19418
U
9 20 29.62
94)007
20 55 18.6
0.978
11
10 52 15.65
1.8393
12 6 18.8
19.409
12
1 9 22 30.06
94)060
20 45 59.3
0.301
12
10 54 5.51
1.8800
1153 49.7
19410
13
9 24 30.22
94)004
20 30 34.9
0.448
13
10 55 55.23
1.89n
11 41 17.8
19407
14
9 26 30.11
I.0M7
20 27 5.4
OJi»l
14
10 57 41.82
1.8356
1128 43.1
19401
I 15
9 28 29.73
IJOll
20 17 30.9
0.0I0
15
10 59 34.27
1.8338
11 16 5.6
19460
16
9 30 29.07
IMH
20 7 51.5
04)06
16
11 1 23.60
1.8319
11 3 25.3 19400
17
9 32 28.14
1.0699
19 58 7.2
0.778
17
11 3 12.80
1.0109
10 50 42.3, 19.7W
18
9 34 26.94
1.0777
19 48 18.0
0.866
18
11 5 1.88
1.6179
10 37 56.7 19.788
19
9 36 25.48
iS7n
19 38 24.0
0.006
19
U 6 50.84
1.614r9
10 25 8.5
19496
90
9 38 23.75
1.0067
19 28 25.3
104)17
20
11 8 39.69
1.8138
10 12 17.7
19406
21
1 9 40 21.75
IJOtt
19 18 21.9
104)06
21
U 10 28.43
1.8110
9 59 24.4
19410
22
0 42 19.48
iJ9aoo
19 8 13.9
10.179
22
11 12 17.06
1.006
9 46 28.6| 19400
23
9 44 16.95
14667
18 58 1.3
I0.9«
23
11 14 5.59
1.6089
9 33 30.3i 19400
24
9 46 14.17
1.0614
N 18 47 44.2
10.898
-24
11 15 54.03
1.0000
.V 9 20 29.7
18400
VIII.
JUNE, 1855.
89
GREENWICH MEAN TIME.
THE
MOON^ RIGHT ASCENSION AND DECLINATION.
Hour.
Right Aacenakm.
Diflr
forlm.
Decllnatkm.
Diflr.
forim
Hour.
Right Aaceorion.
Diff.
forlm.
DeclinaUon.
DiflU
forlm.
THUI
ISDAl
r 21.
SATURDAY 28.
h. m. •.
a.
O 1 «
M
h. m. a.
a.
O 1 II
M
0
11 15 54.03
1.8006
N. 9 20 29.7
}Bjm
0
12 42 11.44
13184
S. 1 38 22.6
14.167
1
11 17 42.38
I.805I
9 7 26.8
isuno
1
12 44 0.61
1.8907
1 52 32.9
14.178
2
11 19 30.63
1.80S7
8 54 21.5
13.109
3
12 45 49.92
1.8230
2 6 43.5
14.179
3
11 21 18.80
1.8093
8 41 13.9
13.147
3
12 47 39.36
1.8253
2 20 54.5
14.184
4
11 23 6.89
1.8010
8 28 4.0
13.184
4
12 49 28.95
i.82n
2 35 5.7
14.188
5
11 24 54.91
1.7W7
8 14 51.9
13.330
5
12 51 18.69
1.8302
2 49 17.1
14.193
6
11 26 42.85
1.7W6
8 137.7
I3.3S6
6
12 53 8.58
1.8328
3 3 28.7
14.195
7
11 28 30.73
1.797ft
7 48 21.4
18.990
7
12 54 58.63
1.8355
3 17 40.4
14.197
8
11 30 18.55
1.7955
7 35 3.0
18.335
8
12 56 48.85
1.8383
3 31 52.3
14.199
9
11 32 6.31
1.7»6
7 2142.5
13.859
9
12 58 39.23
1.8411
3 46 4.3
14300
10
11 33 54.01
1.7946
7 8 20.0
13.899
10
13 0 29.79
1.8441
4 0 16.3
14.960
11
11 35 41.66
1.7938
6 54 55.5
13.436
11
13 2 20.53
13473
4 14 28.2
14.199
12
11 37 29.27
1.7931
6 4129.0
18.457
12
13 4 11.45
13504
4 28 40.01 14.197 II
13
11 39 16.84
1.7925
6 28 0.7
13.488
13
13 6 2.56
13586
4 42 51.7
14.194
14
11 41 4.37
1.7990
6 14 30.5
13.519
14
13 7 53.87
13568
4 57 3.3
14.190
15
11 42 51.86
1.7915
6 0 58.5
13.&49
15
13 9 45.38
13601
5 11 14.6
14.185
16
11 44 39.33
1.7910
5 47 24.7
13.579
16
13 11 37.09
13685
5 25 25.5
14.179
17
11 46 26.77
1.7907
5 33 49.2
13.608
17
13 13 29.01
13671
5 39 36.1
14.178
18
11 48 14.20
1.7904
5 20 11.9
13.636
18
13 15 21.14
1.8708
5 53 46.3
14.166
19
11 50 1.62
1.7902
5 6 32.9
13 663
19
13 17 13.50
13745
6 7 56.1
14.158
20
11 51 49.03
1.7901
4 52 52.3
18.600
20
13 19 6.09
13783
6 22 5.4
14.150
21
11 53 36.42
1.7900
4 39 10.2
13.716
21
13 20 58.90
13821
6 36 14.1
14.140
22
11 55 23.81
1.7900
4 25 26.6
13.742
22
13 22 51.95
13861
6 50 22.2
14.198
23
11 57 11.21
1.7901
N. 4 1141.4
18.767
23
13 24 45.25
13903
S. 7 4 29.5
14.115
FR]
[DAY
22.
SUI
^DAY
24.
0
11 58 58.62
1.7903
N. 3 57 54.7
13.790
0
13 26 38.80
13945
s. 7 18 36.0
14.101
1
12 0 46.05
1,7906
3 44 6.5
18.818
1
13 28 32.60
13988
7 32 41.6
14367
2
12 2 33.50
I.79I0
3 30 17.0
18«7
2
13 30 26.66
1303-2
7 46 46.4
14378
3
12 4 20.97
1.7914
3 16 26.1
13JI60
3
13 32 20.98
13076
8 0 50.4
14356
4
12 6 8.47
1.7918
3 2 33.9
13.883
4
13 34 15.56
13190
8 14 53.5
144M1
5
12 7 56.00
1.7923
2 48 40.4
18.902
5
13 36 10.42
13165
8 28 55.5
14338
6
12 9 43.56
1.7030
2 34 45.7
18.922
6
13 38 5.55
13213
8 42 56.4
14304
7
12 11 31.16
1.7938
2 20 49.9
13.942
7
13 40 0.97
13260
8 56 56.1
18385
8
12 13 18.81
1.7947
2 6 52.9
13.961
8
13 41 56.67
13308
9 10 54.6
13365
9
12 15 6.52
1.7956
1 52 54.7
13.979
9
13 43 52.67
1.9357
9 24 51.8
18348
10
12 16 54.28
1.796.^
1 38 55.5
13.996
10
13 45 48.97
13408
9 38 47.7
18390
11
12 18 42.10
1.7975
1 24 55.3
14.013
11
13 47 45.58
13459
9 52 42.1
13305
12
12 20 29.99
1.7986
1 10 54.0
ujoao
12
13 49 42.49
1.9510
10 6 35.0
13360
13
12 22 17.94
1.7998
0 56 51.7
14.045
13
13 51 39.71
1.9562
10 20 26.3
13343
14
12 24 5.97
1.8011
0 42 48.6
14.050
14
13 53 37.25
1.9616
10 34 16.0
18315
15
12 25 54.08
1.80-25
0 28 44.7
14.078
15
13 55 35.13
13672
10 48 4.1
13.787
16
12 27 42.27
1.8039
0 14 40.0
IAJ0B6
16
13 57 33.34
13738
11 150.5
13.788
17
12 29 30.55
1.80^>5
N. 0 0 34.4
14.098
17
13 59 31.88
13784
11 15 35.0
18.797
18
12 31 18.93
1.8071
S. 0 13 31.9
14.110
18
14 1 30.75
13840
1129 17.6
13395
19
12 33 7.41
1.8088
0 27 38.8
14.122
19
14 3 29.97
13898
1142 58.3
13.003
20
12 34 55.99
1.8105
0 4146.4
14.183
20
14 5 29.54
13958
1156 37.0
13337
21
12 36 44.67
1.8123
0 55 54.7
14.143
21
14 7 29.47
33018
12 10 13.6
13301
22
12 38 33.47
1.8143
1 10 3.5
14.152
22
14 9 29.76
33078
12 23 48.0
18354
23
12 40 22.39
1.8163
1 24 12.8
14.160
23
14 11 30.41
33140
12 37 20.1
18315
24
12 42 11.44
1.8184
S. 1 38 22.6
14.167
24
14 13 31.44
33308
&12 50 49.8
18.475
12
90
JUNE, 1855.
IX.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Riffat AKCMkm.
Dlff
forlm.
DKUoaUoo.
Diflr.
Ibrim
Hour.
Right A«c«nrioD.
Diflr.
Ibrlm.
DecUoaUoo.
Diff.
iirlin.
MOI
^DAY
25.
WEDNESDAY 27.
h. m. a.
•.
O 1 u
tf
h. m. •.
a.
O 1 M
B
0
14 13 31.44
9jnn
S.12 50 49.8
11.475
0
15 59 1.46
93863
S.22 23 31.9
9.746
1
14 15 32.85
QJn06
13 4 17.1
U.4S1
1
16 1 25.49
9.4050
22 33 13.2
9.696
8
14 17 34.63
34)830
13 17 41.8
11300
2
16 3 50.05
9.4118
22 42 47.1
9.503
3
14 19 36.79
34W»»
13 31 3.9
11347
3
16 6 15.13
93995
22 52 13.6
9376
4
14 21 39.35
3U>40I
13 44 23.4
11309
4
16 8 40.73
9.4119
23 132.6
9.959
5
14 23 42.31
%oairj
13 57 40.2
11355
5
16 11 6.85
9.4198
23 10 43.9
9.195
6
14 25 45.67
34N08
14 10 54.1
11.901
6
16 13 33.48
93483
23 19 47.5
6305 1
7
14 27 49.43
94M61
14 24 5.0
11.157
7
16 16 0.62
93560
23 28 43.3
8361 \
8
14 29 53.59
sunao
14 37 12.9
11.107
8
16 18 28.28
9.4655
23 37 31.1
6.798
0
14 31 58.17
94)600
14 50 17.8
114)56
9
16 20 56.46
93741
23 46 10.7
6391
10
14 34 3.17
94)670
15 3 19.5
114)06
10
16 23 25.16
93896
23 54 41.9
6.159
11
14 36 8.60
94)M0
15 16 18.0
19347
11
16 25 54.36
93910
24 3 4.7
6319
12
14 38 14.45
9.1019
15 29 13.2
19300
12
16 28 24.06
93094
24 11 19.0
6.169
13
14 40 20.74
9.1065
15 42 4.9
19319
13
16 30 54.26
93077
24 19 24.8
64)95
t U
14 42 27.46
9.1U6
15 54 53.0
19.779
14
16 33 24.96
93160
24 27 22.0
7380
1 >6
14 44 34.62
9.1989
16 7 37.4
19.711
15
16 35 56.17
93941
24 35 10.5
7.713 ;
16
14 46 42.23
9.1107
16 20 18.2
19348
16
16 38 27.87
93995
24 42 50.0
7364
17
14 48 50.29
9.1169
16 32 55.2
19364
17
16 41 0.05
93405
24 50 20.4
7319 \
18
14 50 58.81
9.1406
16 45 28.4
13319
18
16 43 32.71
93465
24 57 41.6
7.9n
19
14 53 7.78
9.IS15
16 57 57.5
19.459
19
16 46 5.85
93564
25 4 53.5
7.191
20
14 55 17.21
9.1611
17 10 22.5
19361
20
16 48 39.47
936tt
25 1156.0
6361
21
14 57 27.12
9.1009
17 22 43.4
19311
21
16 51 13.56
93791
25 18 49.0
6304
22
14 59 37.50
9. mi
17 35 0.0
19.941
22
16 53 48.12
93796
25 25 32.4
63a
23
15 1 48.35
9.1680
al7 47 12.2
19.106
23
16 56 23.14
93671
S25 32 6.1
6360
TUE
SDAT?
1
THU
RSDA
Y 28.
0
15 3 59.67
3.1990
S.17 59 19 9
I94M
0
16 58 58.60
93946
s 25 38 30.0
6316
1
15 6 11.46
9.9006
18 1123.1
19315
1
17 1 34.51
93099
25 44 44.0
6.150
2
15 8 23.74
3.9060
18 23 21.6
11365
2
17 4 10.87
93006
25 50 48.0
5309
3
15 10 36.51
9.9171
18 35 15.3
11355
3
17 6 47.67
93169
25 56 41.9
5319
4
15 12 49.78
9.9953
18 47 4.2
11.773
4
17 9 24.90
93940
26 2 25.5
5340
6
15 15 3.54
9.9»5
18 58 48.1
11360
5
17 12 2.56
93110
26 7 58.7
5307
6
15 17 17.79
33117
19 10 26.9
11301
6
17 14 40.63
93378
26 13 21.7
«393 '
7
15 19 32.53
3.3500
19 22 0.5
11316
7
17 17 19.10
93445
26 18 34.2
5.116
8
15 21 47.76
3.9S6I
19 33 28.8
11337
8
17 19 57.96
93510
26 23 36.0
4340 1
0
15 24 3.50
9.9000
19 44 51.7
11316
9
17 22 37.22
93574
26 28 27.0
4.760 !
10
15 26 19.76
93744
19 56 9.1
113a
10
17 25 16.86
93617
26 33 7.2
4379
11
15 28 36.53
9300
20 7 20.9
11.140
11
17 27 56.87
93008
26 37 36.5
4397
12
15 30 53.81
9.9*94
20 18 27.0
11356
12
17 30 37.24
93756
26 4154.9
4.914
; 13
15 33 u.eo
93010
20 29 27.3
10355
13
17 33 17.96
93616
26 46 2.2
44n9 ,
14
15 35 29.90
33006
20 40 21.6
10354
14
17 35 59.03
93879
26 49 58.4
1349
15
15 37 48.72
33169
20 51 9.7
10.751
15
17 38 40.44
93996
26 53 43.3
1358 1
16
15 40 8.06
33906
21 151.6
10347
16
17 41 22.17
93979
26 57 16.9
1.461
17
15 42 27.91
33154
21 12 27.2' 10.649
17
17 44 4.21
3.7060
27 0 39.2
1.975 ,
18
15 44 48.28
33440
2122 56.5 10.415
18
17 46 46.55
3.7079
27 3 50.1
1364
10
15 47 9.17
33AM
21 33 19.5
10396
19
17 49 29.18
3.7191
27 6 49.5
9399 -
20
15 49 30.58
33611
2143 35.7
10.915
20
17 52 12.08
3.7173
27 9 37.2
9396 1
21
15 51 52.51
33700
21 53 45.2
10. Mn
21
17 54 55.26
3.7918
27 12 13.3
9306
22
15 54 14.97
33788
22 3 47.8' 0366
22
17 57 38.71
3.7961
27 14 37.7
9307
23
15 56 37.95
33676
22 13 43.4 9306
23
18 0 22.41
3.7»4
27 16 50.2
9.110 '
24
15 59 1.46
33661
822 23 31.9
9.748
24
18 3 6.36
3.73a
s27 18 50.9
'••" II
X.
JUNE, 1855.
91
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AKemton.
forlm.
DacUnatioo.
Diff.
forlm.
Hoar.
Right Aacemloo.
Diff
forlm.
DecUnaUoD.
Dtflr.
forlm.
FRIDAY 29.
SATURDAY 30.
h. iiL •.
■.
O 1 «
tf
h. m. •.
a.
o 1 a
u
0
18 3 6.36
3.7S43
S27 18 50.9
1.013
0
19 9 21.31
3.7667
S.27 6 15.8
3je7
1
18 5 50.65
3.7880
27 20 39.7
1.718
1
19 12 7.24
3.7644
27 3 10.4
8.191
2
18 8 34.94
3.7417
27 22 16.5
1.618
2
19 14 53.08
3.7898
26 59 52.8
8.806 1
3
18 11 19.55
3.74S8
27 23 41.3
1J13
3
19 17 38.82
3,7611
26 56 22.9
8.560
4
18 14 4.37
9.7480
27 24 54.0
1.111
4
19 20 24.44
3.7903
26 52 40.8
8J08
5
18 16 49.37
2.7516
27 25 54.6
0.010
5
19 23 9.94
3.7670
26 48 46.5
4.006
6
18 19 34.54
3.7*43
27 26 43.2
0.708
6
19 25 55.30
3.7647
26 44 40.1
4.907
7
18 22 19.85
3.7d64
27 27 19.7
0.606
7
19 28 40.52
3.7603
26 40 21.7
4.407
8
18 25 5.28
3*7083
27 27 44.0
0.809
8
19 31 25.58
3.7406
26 35 51.3
4.607
9
18 27 50.83
3.7601
27 27 55.9
OJtm
9
19 34 10.47
3.7466
26 31 8.8
4.807
10
18 30 36.49
3.7610
27 27 55.5
0.108
10
19 36 55.19
3.7488
26 26 14.3
6J006
11
18 33 22.27
3.7636
27 27 42.8
0.818
11
19 39 39.72
3.7400
26 21 7.9
6.909
12
18 36 8.16
3.7661
27 27 17.9
0.617
12
19 42 24.04
3.7866
26 15 49.8
6.898
13
18 38 54.13
3.7661
27 26 40.8
0.739
13
19 45 8.14
3.7880
26 10 20.0
6.608
14
18 41 40.16
3.7674
27 25 51.4
0.998
14
19 47 52.02
3.7903
26 4 38.5
6.788
15
18 44 26.25
3.7689
27 24 49.5
1.135
15
19 50 35.66
3.7969
25 58 45.4
6.988
16
18 47 12.38
3.7688
27 23 35.2
1343
16
19 53 19.06
3.730O
25 52 40.6
6.176
17
18 49 58.53
3.76W
27 22 8.5
1.648
17
19 56 2.20
3.7166
25 46 24.2
6.868
18
18 52 44.70
3.7608
27 20 29.5
1.764
18
19 58 45.08
3.7131
25 39 56.4
6.568
19
18 55 30.87
3.7600
27 18 38.2
liW)
19
20 1 27.69
3.7075
25 33 17.3
6.747
20
18 58 17.03
3.7680
27 16 34.4
3.166
20
20 4 10.01
3.7097
25 26 26.9
6.984
21
19 1 3.16
3.7686
27 14 18.2
3.873
21
20 6 52.04
3.60n
25 19 25.3
7.190
22
19 3 49.26
3.7678
27 11 49.7
3.678
22
20 9 33.77
3-6096
25 12 12.6
7304
23
19 6 ^5.31
3.7668
27 9 8.9
3.783
23
20 12 15.19
3.6875
25 4 48.9
7.486
24
19 9 21.31
3.7687
S 27 6 15.8
3.987
24
20 14 56.29
3.6839
S.24 57 14.2
7.667
PHASES
OF TH
E MOON.
Day. h.
m.
C Last Quarter,
. .
. . 6 19
48.3
0 New Moon, .
...
. . 14 2
28.8
3) First Quarter,
...
. . 22 4
52.4
O Full Moon, .
. . .
. . 29 11
14.0
Daj.
h.
C Perigee,
• . .
. . . 3
13.5
C Apogee, .
. . . 19
6.5
92
JUNE, 1855.
XI.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
i^
SuesNuna 1
P L.
P.L.
P.L.
P.L.
^%
and
Noon.
of
mh.
of
VP».
of
DCh.
of
1*
1
Posit ioa.
Diff.
Dim
Diir
DOT
Spica
W.
60 07 67
M70
O 1 M
61 54 41
9202
O 1 II
63 41 37
22M
O 1 H
65 28 44
2247
AnUres
W.
14 17 26
2300
16 3 17
2491
17 49 29
2278
19 36 1
2266
a Aquilae
E.
48 40 il
4118
47 30 27
42i8
46 22 23
4342
45 16 9
4476
Jupiter
E.
69 54 34
vm
68 8 16
9201
66 2148
2274
64 35 10
2268
Fomalhaut E. |
69 59 0
2400
68 16 49
9466
66 34 34
9466
64 52 18
9456
a Pega»i
E.
90 34 48
9630
88 56 34
9024
87 18 11
9617
86 39 39
9619
2
Spica
W.
74 26 40
2220
76 14 38
2216
78 2 42
9212
79 50 51
2210
AnUres
W.
28 32 32
2225
30 20 23
3219
32 8 22
2214
33 56 28
9210
Jupiter
E.
55 39 54
2248
53 52 31
9240
52 5 3
2237
50 17 31
SS5
Fomalhaut E. |
56 21 25
2474
54 39 35
9l»i
52 57 56
210^2
51 16 32
9604
a Pegasi
E.
77 25 55
9006
75 47 8
9000
74 8 25
9612
72 29 47
9618
3
Spica
W.
88 52 29
2202
90 40 55
9201
92 29 21
9901
94 17 47
9909
Antaree
W.
42 58 13
2108
44 46 43
2;98
46 35 13
9198
48 23 43
2108
Jupiter
E.
41 19 23
204
39 31 46
2215
37 44 10
9237
35 56 37
2240
Fomalhaut E.
42 54 50
2005
41 16 2
2635
39 37 55
9070
38 0 35
2111
a Pe^i
E.
64 19 9
2600
62 41 47
2684
61 4 45
9702
59 28 8
9729
a Arietis
E.
105 20 56
2270
103 34 13
2^W0
101 47 28
9908
100 0 42
2968
Sun
E.
141 10 12
9407
139 28 55
2496
137 47 36
9406
136 6 17
9406
4
AnUres
W.
57 26 1
9904
59 14 22
2207
61 2 39
9210
62 50 52
2213
Jupiter
a Pegasi
E.
27 0 35! 2470
25 13 51
22B1
23 27 23
9904
SI 41 14
2308
E.
51 32 44| 9861
49 59 38
2901
48 27 21
9040
4656 0
3903
a Arietis
E.
91 6 58
2274
89 20 20
2277
87 33 46
9279
85 47 16
9J83
Sun
E.
127 39 55
9d02
125 58 45
9606
124 17 40
9600
122 36 39
2512
6
AnUres
W.
7150 38
92»
73 38 16
9289
75 25 46
9248
77 13 10
9218 1
a Aquila
w.
39 31 33
8482
40 22 51
6907
41 17 7
4903
42 14 8
4806
a Pegasi
E.
39 36 42
8980
38 13 16
8487
36 51 41
8640
35 32 11
son
a Arietis
E.
76 56 21
9807
75 10 32
9118
73 24 52
sni
71 39 23
9898
Sun
E.
114 12 49
9638
112 32 22
9588
110 52 2
9644
109 11 50
9860
6
AnUres
W.
86 8 3
9278
87 54 35
9»t
89 40 58
9200
91 27 12
9908
a Aquila
W.
47 33 27
4181
48 42 59
4087
49 54 2
8868
51 6 28
8870
a Arietis
E.
62 54 43 »»
61 10 24
9879
59 26 19
9360
57 42 29
9401
Sun
E.
100 52 55 aaei
99 13 34
9588
97 34 22
9500
95 55 21
9008
7
a Aquila
W.
57 25 51 MM
58 44 28
8657
60 3 49
8691
61 23 50
8400
Fomalhaut W.
23 21 15 S711
24 37 50
8645
25 57 25
8408
27 19 31
8200 j
Jupiter
W.
16 26 30 Mas
18 8 49
9447
19 51 17
9449
21 33 52
9488
1
a Arietis
E.
49 7 26 9M3
47 25 20
9478
45 43 36
9404
44 2 15
9619
1
Sun
E.
87 42 44 tm
86 4 44
9048
84 26 54
9666
82 49 15
9664
8
a Aquila
W.
68 11 24 S880
69 34 3
8866
70 56 59
8868
72 20 9 88a
,
Fomalhaut W.
34 36 30; »06
36 7 27
2097
37 39 12
9804
39 11 39 9888
Jupiter
a Pe^i
W.
30 7 28 9449
31 50 2
9440
33 32 31
9480
35 14 54 9466
W.
25 9 26i M64
25 49 14
0018
26 34 19
6570
27 94 14 6906
a Arietis
E.
35 42 lOl 96M
34 3 47
96«3
32 26 3| 98861
30 49 4 9794
Sun
£.
74 43 46 3706
73 7 14
9714
71 30 53
9798
69 54 44 9789
0
a Aquila
W.
79 18 18 tti8
80 42 9
8317
82 6 1
8317
1
83 29 53 8319
1
Fomalhaut W.
47 1 1 2784
48 35 50
2776
60 10 50, 9708]
51 46 0 ra
XII.
JUNE, 1855.
93
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1^
Star's Nama
P. L.
P. L.
P. L.
P. L.
"1
1
and
Midnight.
of
XVh.
of
xvnih.
of
XXP».
of
Poaition
Did
DiC
Diff.
DiflT.
Spioa
W.
O 1 N
67 16 3
9941
O 1 N
69 3 39
9985
O 1 u
70 51 5
9999
O 1 1,
73 38 49
9995
Antarea
W.
31 33 59
99M
33 9 59
9945
94 57 19
9330
86 44 50
9981
a Aquilae
E.
44 11 56
46W
43 9 54
4707
49 10 15
4888
41 13 10
5905
Jupiter
E.
63 48 33
9901
61 1 36
2356
59 14 33
9351
57 37 11
2947
Fomalhaat E.
63 10 1
SIM
6137 46
9456
59 45 33
»161
58 3 35
9407
oPeirasi
E.
84 1 0
9000
88 33 17
9607
80 43 31
9S05
79 4 43
9605
2
Spica
W.
81 39 4
9907
83 37 91
9905
85 15 41
2908
87 4 04
9901
Aotares
W.
35 44 41
9906
87 39 59
2904
39 91 90
2903
41 9 45
9900
Jupiter
E.
48 39 56
9994
46 43 19
9983
44 54 40
9988
43 7 1
9388
Fomalhaut E.
49 35 35
9010
47 54 38
9585
46 14 13
9564
44 34 15
9678
aPegisi
E.
70 51 16
9095
69 13 55
9688
67 34 45
9648
65 56 49
9656
3
Spioa
W.
96 6 13
990B
97 54 35
9904
99 43 56
9905
101 31 16
9907
Antares
W.
50 13 13
9108
53 0 43
9900
53 49 11
2901
55 37 37
9903
Jupiter
E.
34 9 9
994ft
33 31 48
9950
30 34 35
9956
88 47 30
9969
PoDMlhautE.
36 34 10
9760
34 48 49
9815
33 14 41
9860
31 41 56
9055
a Arietifl
E.
57 51 57
9744
56 16 16
9760
54 41 7
2787
53 6 35
9838
E.
98 13 56
vm
96 37 9
9968
94 40 33
9370
93 53 39
9379
Sun
E.
134 34 58
%m
133 43 40
9407
131 3 33
9409
139 31 8
9500
4
Antares
W.
64 39 0
9916
6637 3
9990
68 15 1
9994
70 9 53
2390
Jupiter
aPegim
E.
19 55 36
9897
18 10 6
9350
16 35 19
9384
14 41 93
9484
E.
45 35 39
9047
43 56 85
8108
43 38 35
8177
41 1 48
8358
a Arietia
E.
84 0 53
9967
83 14 33
9901
80 38 31
9907
78 49 17
9303
Sun
E.
190 55 43
9015
119 14 50
9510
117 34 03
9094
115 53 93
9598
5
Antares
W.
79 0 36
9904
80 47 83
2900
83 84 33
9966
84 9199
9979
a Aquila
W.
43 13 40
4006
44 15 33
4460
45 19 34
4855
46 95 36
4237
aPegasi
E.
34 14 59
9019
33 0 19
8060
31 48 89
41M
30 39 48
4414
a Arietis
E.
69 54 5
9n5
68 8 57
9844
6684 1
9851
64 39 16
9350
Sun
£.
107 31 46
9506
105 51 50
9063
104 13 3
9S60
103 39 35
9574
6
Antares
W.
93 13 15
9004
94 59 8
9311
96 44 51
9318
98 80 34
9396
a Aqoila
W.
53 30 13
1607
53 86 7
8746
54 51 5
8601
56 8 3
8642
a Arieds
E.
55 58 56
9419
54 15 39
9494
53 33 38
9435
50 49 53
9448
Sun
E.
94 16 30
9010
93 37 49
9617
90 59 17
9094
89 30 55
9689
•z
a Aquile
W.
63 44 35
9409
64 5 33
8488
65 37 6
8416
66 49 4
8307
ForaalhautW.I
38 43 48
9908
30 954
8196
31 37 33
8069
33 6 38
8000
Jupiter
W.
33 16 33
9485
34 59 18
94ai
36 43 4
9485
38 84 49
9439
a Arietis
E.
43 31 18
9000
40 40 47
9560
39 0 43
9979
37 31 10
9506
Sun
E.
81 11 47
9679
79 34 30
9681
77 57 84
9660
76 30 39
9608
8
a Aquils
W.
73 43 31
9884
75 7 03
8897
76 30 43
8893
77 54 39
8819
FomalhautW.I
40 44 41
9B44
43 18 19
9695
43 53 8
9808
45 36 36
2705
Jupiter
a Fet^ai
W.
36 57 10
9460
38 39 19
9467
40 31 19
9479
43 3 11
2479
W.
98 18 33
4901
39 16 46
4645
30 18 33
4499
31 38 87
4246
a Arietis
E.
39 13 56
9767
87 37 45
9618
86 3 40
9876
34 30 50
9040
Sun
E.
68 18 46
1740
66 43 59
9748
65 7 33
2756
63 33 0
2767
9
a Aquils
W.
84 53 43
9098
86 17 97
8398
87 41 6
8334
89 4 38
8842
Fomalhaut W.
53 31 17
9756
54 56 40 27m!
56 33 7 27«|
58 7 37
27mJ
94
JUNE, 1855.
XIII.
GREENWICH MEAN
TIME.
LUNAR DISTANCES. 1
11
1^
9
8Uir'« Name
and
PoalUoo.
Noon.
P. L
of
Dur.
9486
4O0B
3775
mh.
P. L.
of
Diffl
Vlh.
P. L.
of
Diff.
IXK
PL. 1
of i
Jupiter
a Fegasi
Sun
W.
W.
E.
O 1 «
43 44 54
33 31 10
61 56 49
O 1 II
45 36 98
33 4193
60 91 48
S403
8064
3784
O 1 M
47 7 53
34 53 48
58 46 59
MOO
8880
9708
O 1 M
48 49 8
36 8 11
57 19 99
1
9600 ;
8717
9800
10
aAquilB W.
Foraalhaut W.
Jupiter W.
a Pegasi W.
Sun E.
9038 1
59 43 7
57 13 53
43 43 34
49 33 19
3768
35tt
S400
3B49
91 51 15
61 18 36
58 53 5
44 4 50
47 48 55
8880
S76S
9661
8860
38ae
93 14 17
63 54 5
60 33 8
45 37 57
46 15 43
»7I
3766
96ae
8810
3808
94 37 7
64 99 39
69*13 1
46 5148
44 49 43
8884
9707
8986
9870
11
Fomalhaut W.
Jupiter W.
a Pegasi W.
Sun E.
73 35 47
70 39 40
53 59 30
37 0 59
5777
3008
SI71
3000
74 0 45
79 8 87
55 36 4
35 39 18
3783
3616
8166
3041
75 35 36
73 47 3
56 53 6
33 57 51
9708
3038
8ia
3009
77 10 19
75 95 96
58 90 93
39 96 38
9708
8188
9884
1
1
Sun
Regulus
Spioa
W.
E.
E.
33 938
41 33 39
95 33 16
1060
son
3000
33 33 53
40 3 47
94 3 8
8869
3080
3003
3456 3
38 33 17
93 31 8
88r
9007
96 19 9
37 9 0
91 0 17
1
an ;
8008
son 1
1 17
Sun
Regius
Spurn
W.
E.
E.
33 13 11
39 33 50
83 38 37
8080
8003
8014
34 35 41
38 454
8158 33
8808
8074
8091
35 58 8
96 36 13
80 38 45
SlOO
8000
8097
37 90 99
95 7 49
78 59 6
8408
8109
': 18
1
Sun
Pollux
Spies
W.
W.
E.
44 10 34
19 18 33
7139 35
8430
8000
8000
45 39 8
90 47 90
70 3 37
8488
8071
8006
46 53 47
33 16 5
68 34 44
8487
8078
8000
48 15 99
93 44 48
67 5 56
8480 !
8074 1
8079 '
. 19
1
1
1
Sun
Pollux
Spies
AnUres
W.
W.
E.
£.
55 9 33
31 7 58
59 43 56
105 34 58
8461
8089
8087
8078
56 93 59
39 36 93
58 14 30
104 6 91
8469
8009
8000
8070
57 45 10
34 454
56 46 6
103 37 45
8464
8088
8000
8070
59 6 96 8404
35 33 94, 8088
65 17 44, 80O1
101 9 lO: 8080
; 30
1
1
Sun
Pollux
Venus
Spies
Antsres
W.
W.
W.
E.
E.
65 53 51
43 56 4
33 10 35
47 56 4
93 46 19
8440
8078
8688
8001
8on
67 14 13
44 34 40
34 30 17
46 37 43
93 17 41
8448
8on
8688
8001
8074
68 35 36
45 53 18
3550 5
44 59 38
90 49 0
8441
8074
8690
8088
8079
69 57 3
47 99 0
97 10 0
43 30 58
89 90 16
8441
8010
Z'
8007 1
8080
91
1
1
Sun
Pollux
Venus
Rej^ultts
Spies
AnUres
W.
W.
W.
W.
£.
E.
76 45 31
54 46 39
33 51 18
18 45 35
36 8 19
81 55 35
8417
8048
84ra
8187
8078
8048
78 7 18
56 15 53
35 11 56
30 13 34
34 39 36
80 36 33
8411
80a
8400
8146
8000
8oa
79 39 38J 8404
57 45 13 8088
36 39 43 8471
91 39 39 8196
33 10 49t 8008
78 57 9 8087
80 51 34
59 14 40
37 53 39
93 7 17
31 41 58
77 97 35
8400
8100
8088
8080
33
1
Sun
Pollux
Venus
Regulus
Spiea
Antsres
W.
W.
W.
w.
E.
E.
87 44 41
66 44 14
44 40 49
30 30 15
34 16 37
69 58 7
8864
8416
8047
3001
89 7 50
68 14 40
46 8 48
31 59 43
33 47 33
68 37 43
88a
9080
8«M
8090
8048
90 31 10
69 45 18
47 94 59
33 99 96
91 18 6
66 57 7
8804
9070
8808
8010
8018
9079
91 54 48
71 16 8
48 47 93
34 59 96
19 48 50
65 96 19
8881
9807
8047
Iw
Sun
W.
98 55 44
^jm
100 30 40
8917
101 45 53
8984
103 11 99
9M
XIV.
JUNE, 1855.
95
GREENWICH MEAN
TIME.
1
1 LUNAR DISTANCES.
1
2
1^
SuetNuna
and
PtMiUon.
Midnight.
P. L.
of
DiflT.
XVh.
P. L.
of
DiflT.
xvmh.
P. L.
of
Diff.
XXIh.
P. L.
of
Diff.
9
Jupiter
aPegasi
Sum
W.
W.
E.
O 1 M
50 30 13
37 24 19
55 37 58
9611
aeso
9613
O 1 u
53 11 9
38 41 59
54 3 46
9690
8676
9831
O 1 M
53 51 54
40 1 1
52 39 45
9696
8600
9680
O 1 II
55 32 28
41 21 15
50 55 56
9686
8461
9689
10
oAquil« W.
Fomalhaut W.
Jupiter W.
a PegMi W.
Sun E.
95 59 42
66 456
63 53 43
48 16 17
43 9 57
8907
9760
9S74
9956
9668
97 33 2
67 40 17
65 32 14
49 41 21
41 37 23
8419
9701
9663
8980
9608
98 44 5
69 15 32
67 11 34
51 6 55
40 5 2
8490
9706
9601
8907
9009
100 5 49
70 50 42
68 50 42
52 32 56
38 32 64
3446
9773
9606
8166
9919
11
Fomalhaut W.
Jupiter W.
a Pegisi W.
Sun E.
78 44 53
77 3 38
59 47 52
30 55 40
9601
9M0
S19S
9076
80 19 19
78 41 39
61 15 30
29 24 57
9600
9646
8119
9069
81 53 35
80 19 29
62 43 16
27 54 30
9616
9667
8113
8000
83 27 42
81 57 7
64 11 10
26 24 17
9894
9606
8100
8018
16
Sun
Reguloa
Spica
W.
E.
E.
27 42 10
35 31 55
80 29 36
ISfl7
9017
9066
29 5 4
34 2 3
87 59 5
8879
8036
9003
30 27 53
32 32 25
86 28 43
8878
8039
8000
31 50 35
31 3 1
84 58 30
8863
3060
8006
17
Sun
Regulus
Spica
W.
E.
E.
38 42 33
23 39 42
77 29 34
8400
8117
8090
40 4 39
23 1154
76 0 9
3414
8134
8044
41 26 40
20 44 27
74 30 51
3410
8168
3060
42 48 35
19 17 22
73 I 40
8434
3174
8066
18
Sun
Pollux
Spica
W.
w.
E.
49 36 54
35 13 29
65 37 12
8449
8076
8076
50 58 33
36 43 8
64 8 32
8446
8078
8079
53 19 49
38 10 45
63 39 57
8447
3080
8069
53 41 12
29 39 19
61 11 25
3440
3061
8064
19
Sun
Pollux
Spica
Antaree
W.
W.
E.
E.
60 27 42
37 1 54
53 49 23
09 40 36
8464
8069
8003
8061
6148 58
38 30 25
52 21 4
98 12 3
8463
8083
8001
8061
63 10 15
39 58 57
50 53 44
96 43 30
8468
8061
8001
8079
64 31 32
41 27 30
49 24 24
95 14 55
8461
8060
8001
8076
20
Sun
Pollux
Venua
Spica
Antaras
W.
W.
W.
E.
E.
71 18 33
48 50 46
28 30 1
42 3 33
87 51 39
8486
80O7
8616
8066
8008
73 40 7
50 19 36
3950 9
40 34 4
86 33 38
8488
8009
8608
8063
8068
74 1 46
51 48 32
31 10 24
39 5 32
84 53 43
8498
8066
8601
3070
8066
75 23 31
53 17 33
32 30 47
37 36 57
83 24 42
8438
8064
8404
8on
8068
31
Sun
Pollux
Veous
Re^ulua
Spica
Antares
W.
W.
W.
W.
E.
E.
83 13 54
60 44 16
39 14 44
34 35 16
30 13 3
75 57 59
8801
8099
8466
8008
8060
8091
83 36 31
63 14 1
40 35 58
26 334
28 44 3
74 28 16
8888
8014
8446
8076
8066
3017
84 58 57
63 43 56
41 57 24
27 32 11
27 14 58
72 58 24
8373
8007
3436
8064
8063
8006
86 2144
65 14 0
43 19 1
89 1 5
35 46 49
7138 21
8866
9000
3496
8061
8040
9990
23
Sun
Pollux
Venus
Regulus
Spica
Aoures
W.
W.
w.
w.
E.
E.
93 18 37
78 47 U
50 10 1
36 39 43
18 19 36
63 55 18
8819
9060
8800
9068
8069
9061
94 42 25
74 18 27
51 32 53
38 0 17
16 50 28
02 24 4
8800
9080
8866
9(60
8003
9040
96 6 37
75 49 57
52 56 0
39 31 8
15 21 32
60 52 36
8368
90i7
8348
9067
8078
9099
97 31 3
77 2142
54 19 22
41 2 15
13 52 55
59 20 54
8976
9916
8890
9943
8101
9917
93
Sun
W.
104 37 9
8304
106 3 13
8160
107 29 35
8174
108 56 15
8166
96
JUNE, 185&*
XV.
GREENWICH MEAN TIME.
LUNAK DIBTANCE&
1^
Star's NaoM
P. L.
P.L.
P.L.
P.L.
H
33
and
Noon.
of
nih.
of
Vlh.
of
DC*.
of
Posiiioo.
DiflT.
Die
Diflf:
Diff.
Pollux
W.
O 1 II
78 63 43
3009
O 1 w
80 35 57
3890
O 1 »
81 58 88
96n
O 1 M
83 31 17
9809
Venus
W.
55 43 0
S3I0
57 6 53
3901
58 31 3
3987
59 55 30
3970
Regulus
w.
43 33 40
S930
44 5 33
3914
45 37 33
9100
47 9 43
9885
Aotares
E.
57 48 57
30M
56 16 45
3803
54 44 17
9880
53 11 33
9866
34
Sun
W.
110 33 14
ai43
111 50 33
3195
lis 18 18
9110
114 46 10
3099
Pollux
W.
91 19 53
3791
98 54 33
3n6
94 39 33
9760
96 4 54
3744 1
Venus
W.
67 3 33
S190
68 38 44
3173
69 55 36
3155
71 83 39
3188 \
Regulus
W.
54 56 10
3808
56 30 37
3799
58 5 6
3T76
59 40 7
9769 ;
Antares
E.
45 33 33
379ft
43 48 48
3780
43 13 54
3765
40 38 40
7790 '
a Aquila
E.
95 16 18
MSS
93 58 11
3006
93 30 45
3190
9181 0
3573
35
Sun
W.
133 11 19
aooft
133 41 36
3986
135 11 56
3969
186 48 48
9961
Venus
W.
78 43 10
3046
80 13 36
3096
81 43 6
3006
83 18 9
9088
Regulua
W.
67 40 43
36TI
69 17 58
3865
70 55 38
3088
78 33 43
9091
Spica
W.
13 54 48
3800
15 39 4
3764
17 4 19
9795
18 40 35
9699
Anures
E.
38 37 30
3670
31 0 0
3654
39 33 18
9088
87 44 15
9093
a Aqnils
E.
84 43 48
8499
83 33 33
3488
83 1 45
3«7»
80 40 56
3468
36
Venua
W.
90 48 30
3891
93 31 0
3873
93 53 55
9659
95 37 15
9633
Regulua
W.
8050 5
3531
83 30 35
3513
84 11 30
9494
85 53 51
94n
SpFca
W.
36 50 54
3961
38 30 43
3909
30 11 3
9517
31 51 51
9497
a Aquile
E.
73 54 39
M40
73 33 9
3441
71 11 38
3443
69 50 10
3446
Foinalhaat E. |
103 3 7
3709
100 36 31
3684
98 49 39
9664
97 13 1
9615
Jupiter
E.
103 55 6: a*M
1
103 14 33
9804
100 33 16
9«7
98 51 44
9469
37
Venus
W.
103 30 4
37a9
104 55 53
3793
106 33 3
9104
108 8 38
9087 1
Reffulus
W.
94 35 40
3891
96 9 37
9375
97 53 38
9»6
99 38 13
93a 1
Spica
W.
40 33 59
3309
43 6 35
9363
43 50 36
9364
45 35 2
9347
a Aquile
E.
63 4 43
8504
61 44 33
3594
60 34 35
3M9
59 4 55
3578
Fomalhaut E. |
88 58 37
3557
87 18 33
9541
85 38 17
9035
83 57 39
9510
Jupiter
aPegasi
E.
90 17 50
3189
88 33 49
9365
86 49 34
9348
85 435
3333
E.
108 43 54
3791
107 09 14
9765
105 34 0
9743
103 58 16
9790
38
Spica
W.
54 33 17
3367
56 10 5
9953
57 57 15
9938
59 44 46
9996
a Aqnile
E.
53 37 11
8807
51 33 16
3074
50 830
3951
48 56 3
4006
Fomalhaut E. |
75 39 35
9446
73 47 6
9436
73 4 33
9496
70 81 85
94n
Jupiter
aPegasi
E.
76 14 46
3956
74 37 43
3343
73 40 18
9998
70 53 33
9916
E.
95 53 40
9836
94 14 19
9610
93 35 37
9m
90 56 34
9661
39
Spica
W.
68 47 7 3165
70 36 38
9154
7836 5
9145
74 15 56
9136
Antares
w.
33 53 33; 3174
34 43 38
9169
86 33 3 3151
38 31 45
9141
a Aquile
E.
43 18 39 4(r79
43 17 13
«64
41 18 38 6076
40 33 33
5318
Fomalhaut E.
61 44 6' 7»i
60 030
9M1
58 16 33 9091
56 33 45
9994
Jupiter
aPegasi
E.
61 49 IS; aias
59 59 43
9149
58 9 57i 9139
56 19 58
9139
E.
83 37 16
9M0
80 56 45
9196
79 16 6 9M>
77 35 31
9616
30
Spica
W.
83 38 90
noo
85 19 19
9094
87 10 37 9000
89 143
9066
Anures
W.
37 33 49
9099
39 34 49
9093
41 15 59 9086
43 7 17
9064 ,
Jupiter
E.
47 7 15
9099
45 16 15
9006
43 35 8 9093
41 33 56
9000
Fomalhaut E.
47 55 38 M«
46 13 58
9455
44 30 43 9476
43 48 55
9001
a Pe^i
E.'
69 11 1 v,n
67 30 18
9598
65 49 44' 9636
64 9 34
9M6
1 — __.
a Anetis
E.
110 39 35 9171
108 50 18
3166
107 0 59 9199
105 11 30
«•
XVI.
JUNE, 1855.
9T
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1^
Star's Nuna 1
P. L
PL.
P. L.
P. L.
"o §
and
Midnight.
of
XVh.
of
XVIIIh.
of
XXP».
of
23
Fb«itioa.
DHL
Diff.
DIff.
9891
Diff.
Pollux
W.
O 1 H
85 4 24
9849
O 1 II
86 37 48
9635
O 1 n
88 11 31
O 1 |«
89 45 32
9806
Venus
W.
61 20 16
vae
62 45 19
8010
64 10 41
8994
66 36 22
8907
Regulus
W.
48 42 21
9809
50 15 18
9b54
51 48 36
9839
53 22 13
9894
Antares
E.
61 38 30
98M
50 5 10
9838
48 31 32
9895
46 57 36
9811
24
Sum
W.
116 14 29
W75
117 43 9
8057
119 12 11
8040
120 41 34
8099
Pollux
W.
97 40 35
9798
99 16 38
9710
100 53 4
9694
102 29 62
9678
Venus
W.
72 49 53
SI 19
74 17 39
8101
75 45 47
8088
77 14 17
8065
Regulus
W.
61 15 29
974S
62 51 12
2795
64 27 19
2707
66 3 49
9690
Antares
E.
39 03 6
97S4
37 27 11
2718
35 50 55
2709
34 14 18
2687
a Aquile
E.
90 1 56
SfiM
88 42 33
8540
87 22 53
8596
86 2 58
8518
25
Sun
W.
128 14 2
9989
129 45 40
9914
131 17 41
9886
132 50 5
9879
Venus
W.
84 42 37
9969
86 13 29
9950
87 44 45
9981
89 16 25
9911
Regulus
W.
74 12 9
9603
75 51 0
95S4
77 30 17
9566
79 9 59
9548
Spica
W.
20 17 16
9669
21 54 47
9685
23 32 55
9609
26 11 38
9585
Antares
E.
26 5 51
9608
24 27 7
9593
22 48 1
9877
21 8 36
9664
a Aquila
E.
79 19 56
8460
77 58 47
8453
76 37 30
8447
75 16 7
8443
26
Venus
W.
97 1 0
9615
98 35 8
2795
100 9 42
2n6
101 44 41
2758
Regulus
W.
87 34 36
9460
89 16 45
9448
90 59 18
9495
92 42 17
9408
Spica
W.
33 33 9
9477
35 14 55
9457
36 57 9
9437
38 39 51
9419
a Aquile
E.
68 28 46
SAM
67 7 28
8460
65 46 19
8471
64 25 23 3486
FomalhautE. |
95 34 7
9696
93 55 48
9609
92 17 5
9591
90 37 58 9574
Jupiter
E.
97 9 47
9491
95 27 25
9433
93 44 38
9416
92 126
2899
27
Venus
W.
109 45 36
9669
11122 57
9658
113 0 40
9636
114 38 46
2691
Repulus
W.
101 23 10
9898
103 8 29
9319
104 54 11
9996
106 40 16
9980
Spica
W.
47 19 53
98S0
49 5 9
9313
50 50 49
9998
62 36 52
9983
a Aquile
E.
57 45 57
8619
56 27 36
3651
55 9 57
8698
53 63 8
8747
Fomalhaut E. |
82 16 40
9496
80 35 21
9489
78 53 43
9470
77 11 48
9456
Jupiter
a Pegasi
E.
83 19 23
9816
81 33 46
9801
79 47 48
9986
78 1 28
9271
E.
102 22 3
9668
100 45 21
9678
99 8 12
9660
97 30 38
9649
28
Spica
W.
61 32 37
2919
63 20 47
9199
65 9 16
9187
66 68 3
9176
a Aquile
E.
47 45 0
4186
46 35 33
4947
45 27 51
4374
44 22 6
4517
Fomalhaut E. |
68 38 15
9410
66 54 54
9403
65 11 24
9399
63 27 48
9895
Jupiter
a Pegasi
E.
69 4 28
9908
67 16 5
9199
65 27 25
9180
63 38 28
9169
E.
89 17 13
9S69
87 37 35
9556
85 67 42
S548
84 17 36
9589
29
Spica
W.
76 6 1
2197
77 56 19
9119
79 46 49
9119
81 37 30
9106
Antares
W.
30 11 42
9181
32 1 54
9199
33 52 20
9113
36 42 59
9106
a Aquila
E.
39 29 38
6605
38 40 0
5916
37 63 54
6988
37 11 35
©791
Fomalhaut E.
54 49 9
2898
53 5 25
9404
51 21 66
2119
49 38 39
9494
Juoiter
a Pegasi
E.
54 29 47
9194
52 39 24
9116
50 48 50
9111
48 58 7
9105
E.
75 54 30
9614
74 13 36
9514
72 32 42
9515
70 61 60
9517
30
Spica
W.
90 53 3
9068
92 44 28
9060
94 35 68
9078
96 27 31
90T7
Antares
w.
44 58 41
9081
46 50 10
9an
48 41 44
9075
60 33 22
9078
Jupiter
E.
39 42 41
9068
37 51 23
9087
36 0 4
9087
34 8 45
9088
Fijraalhaut E.
41 7 43
9530
39 27 12
9565
37 47 29
9607
36 8 43
9657
a Pegasi
E.
62 29 18
9561
60 49 30
9677
59 10 3
9595
67 31 1
9615
a Arietis
E.
103 21 54 1 aifio
101 32 11
914S
99 42 22
9148
97 52 29
9149
13
98
JULY, 1855.
AT GREENWICH APPARENT NOON.
t
i
"5
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
Sun.
Mon.
Tues.
,Wed.
Thur.
Fri.
Sat.
Sun.
i
Mod.
Tues.
Wed.
Sun.
.Mod.
Tues.
Thur. 19
Fri. 20
Sat. 21
Wed. 25
Thur. 26
Fri. 27
Sat
Sun.
Mon.
I Tues.
I
Wed.
THE SUN'S
A/^Mrent
Rif hi AacaiMion.
6 39 17.71
6 43 25.79
6 47 33.60
6 51 41.15
6 55 48.43
6 59 55.40
7 4 2.05
7 8 8.35
7 12 14.27
7 16 19.81
7 20 24.94
7 24 29.65
7 28 33.92
7 32 37.73
7 36 41.05
7 40 43.87
7 44 46.17
7 48 47.95
7 52 49.17
7 56 49.83
8 0 49.92
8 4 49.43
8 8 48.34
8 12 46.66
8 16 44.38
8 20 41.50
8 24 38.02
8 28 83.94
8 32 29.25
8 36 23.96
6 40 18.08
Diflf. for
1 hour.
10.340
10.830
10.819
10.808
10.295
10.282
10.268
10.253
10.288
10.221
10.205
10.187
10.168
10.149
10.128
10.106
10.065
10.062
10.089
10.015
9.991
9.966
9.941
9.917
9.892
9.867
9.842
9.817
9.792
9.767
9.742
Apportnt
Declination.
N.23 9 7.4
23 5 2.2
23 0 32.9
22 55 39.5
22 50 22.1
22 44 40.9
22 38 36.0
22 32 7.5
22 25 15.6
22 18 0.3
22 10 21.9
22 2 20.6
21 53 56.6
21 45 10.0
21 36 1.1
21 26 80.0
21 16 37.0
21 6 22.2
Diff.
for
Ibour.
9.71
10.72
11.72
12.72
13.71
14.70
15.69
16.67
17.64
18.60
19.56
20.52
21.46
22.40
23.84
24.26
25.16
26.05
20 55 46.0,26.94
20 44 48.6 27.82
20 83 30.4 26.69
20 21 51.5
20 9 52.0
19 57 32.4
19 44 53.0
19 31 54.0
19 18 35.5
19 4 57.9
18 51 1.4
18 36 46.3
18 22 12.9
29.54
30.88
31.21
Semi.
1^ 4^.17
15 46.17
15 46.16
15 46.16
15 46.16
15 46.17
15 46.18
15 46.20
15 46.22
15 46.24
15 46.27
15 46.31
15 46.35
15 46.40
15 46.45
15 46.51
15 46.58
15 46.65
15 46.73
15 46.81
15 46.89
15 46.98
15 47.07
15 47.17
32.04 15 47.27
32.86 15 47.37
33.66 15 47.48
34.46
85.24
36.01
36.77
8 44 11.59 9.718 N.18 7 21.4 37.51 15 48.07 66.66 6 3.46 0.189
15 47.59
15 47.71
15 47.83
15 47.95
Sideretl
Tlnw
ofUie
Semidi-
ameter
passing
tlM
Merid.
68.76
68.72
68.68
68.64
68.60
68.55
68.50
68.45
68.39
68.33
68.27
68.21
68.15
68.09
68.02
67.95
67.88
67.81
67.74
67.66
67.58
67.50
67.42
67.34
67.26
67.18
67.10
67.01
66.92
66.83
66.74
Equatiooof
Time,
to be
added to
Apparent
m. a.
3 23.81
3 34.80
3 46.02
8 56.98
4 7.67
4 18.05
4 28.12
4 87.83
4 47.17
Diffl
for
0.481
0.471
0.461
0.450
0.489
0.427
0.418
0.898
0.382
4 56.13 0.865
5 4.68 0.348
5 12.82 0.830
5 20.52 0.811
5 27.74 0.292'
5 84.48 0.271
5 40.71
5 46.44
5 51.65
5 56.81
6 0.89
6 8.91
6 6.85
6 9.21
6 10.97
I
0.250
0.228
0205
0.182
0.158
0.184
0.109
0.084
0.059
6 12.13 0.084
6 12.69 0.009
6 12.65 0.016
6 12.01 0.040
6 10.7710.065
6
6
8.93;o.090
6.50;o.ii5
Non. ~ Mmm TIim of the Semidlainsur paaslng may bs foand by subtnctliif Oi.18 ftom U» Skkraal Uroa.
II.
JULY, 1855.
99
----- i
GREENWICH MEAN TIME.
1
1
THE
MOON^S
SttnidiftOMtar.
HoriaonUl Parallax.
Mtridian Punge.
Age.
< s
1
Noon.
Midnight.
NOOQ.
Diff.for
Ihour.
Midnifiit.
Diff for
1 hour
DiflT. for
1 hour.
1
2
3
l4 3^.3
16 32.5
16 27.8
1^ 33.4
16 30.6
16 24.3
60 37.5
60 34.6
60 17.6
-4-0.20
-0.48
0.96
60 37.9
60 27.7
60 4.7
-0.12
071
1.18
h. m.
14 14.2
15 12.7
16 6.5
m.
2.52
2.34
2.16
d
16.9
17.9
18.9
4
5
6
16 20.1
16 10.4
15 59.6
16 15.4
16 5.1
15 54.0
59 49.4
59 13.7
58 34.2
1.85
1.58
1.68
59 32.2
58 54.2
58 13.8
1.49
1.65
1.69
16 56.5
17 44.0
18 30.6
2.03
1.96
1.95
19.9
20.9
21.9
7
6
9
15 48.5
15 37.9
15 27.9
15 43.1
15 32.8
15 23.2
57 53.7
57 14.6
56 38.2
1.66
1.58
1.45
57 33.9
56 56.0
56 21.1
1.68
1.52
1.89
19 17.7
20 5.7
20 55.9
1.98
2.04
2.13
22.9
23.9
24.9
10
11
12
15 18.7
15 10,6
15 3.4
15 14.5
15 6.9
15 0.2
56 4.8
55 34.8
55 8.5
1.83
1.17
1.02
55 49.3
55 21.2
54 56.7
1.25
1.10
0.94
21 47.9
22 41.1
23 34.3
2.19
2.21
2.18
25.9
26.9
27.9
13
14
15
14 57.3
14 52.2
14 48.4
14 54.6
14 50.1
14 47.1
54 45.9
54 27.6
54 13.7
0.85
0.67
0.47
54 36.2
54 20.1
54 8.7
0.75
0.58
0.86
6
0 25.9
1 15.0
2.10
1.98
28.9
0.3
1.3
16
17
18
14 46.2
14 45.5
14 46.8
14 45.6
14 45.9
14 48.2
54 5.1
54 2.8
54 7.5
-0.24
-1-0.04
0.85
54 3.1
54 4.2
54 12.7
—0.10
-M).20
0.52
2 1.2
2 44.5
3 25.7
1.86
1.76
1.69
2.3
a3
4.3
19
20
21
14 50.2
14 56.2
15 4.7
14 52.9
15 0.1
15 9.9
54 20.1
54 42.0
55 13.2
0.72
1.10
1.49
54 30.0
54 56.3
55 32.1
0.91
1.80
1.67
4 5.7
4 45.4
5 26.0
1.66
167
1.74
5.3
6.3
7.3
22
23
24
15 15.7
15 28.8
15 43.6
15 22.0
15 36.1
15 51^
55 53.3
56 41.4
57 35.8
1.85
2.15
2.84
56 16.5
57 8.0
58 4.2
2.00
2.26
2.38
6 8.9
6 55.4
7 46.7
1.86
2.04
2.25
8.3
9.3
10.3
25
26
27
15 59.2
16 14.2
16 27.4
16 6.9
16 21.1
16 32.8
58 32.8
59 27.9
60 15.8
2.86
2.18
1.77
59 0.8
59 53.1
60 35.6
2.80
2.00
1.49
8 43.5
9 45.4
10 50.4
2.48
2.64
2.70
11.3
12.3
13.3
28
29
30
31
16 37.2
16 42.4
16 42.4
16 37.8
16 40.4
16 43.1
16 40.7
16 33.8
60 51.8
61 10.9
61 11.7
60 54.2
1.17
-H).42
-H).86
1.07
61 3.7
61 13.6
61 5.0
60 39.4
0.81
-M).08
-0.78
1.87
11 55.3
12 57.2
13 54.7
14 48.0
2.64
2.49
2.81
2.16
14.3
15.3
16.3
17.3
32
16 28.8
16 23.1
60 21.2
—1.63
60 0.4
—1.88
15 38.2
2.05
18.3
100
JULY, 1855.
III.
GREENWICH MEAN TIME.
THE
MOOJTS EIGHT
ASCENSION AND DECLINATION.
Hour.
Right Asc«nsioa.
Diflf.
forlm.
Declinaiioa.
Diff.
forlm.
Hour.
Right Aaceniioo.
Diff.
forlm.
DecliDAUoo.
DiflT.
forlm.
SU]
NDAY
1.
TUESDAY 3.
h. ni. fl.
a.
O 1 II
M
h. m. B.
«.
O 1 II
«
0
20 14 56.29
%aOiri
S24 57 14.2
7.667
0
22 15 58.01
3.8489
&16 64 26.2
14.183
1
20 17 37.06
3.6767
24 49 28.7
7.817
1
22 18 18.74
33430
16 40 12.6
14.369
2
20 20 17.50
2.6710
24 41 32.5
8.036
2
22 20 39.05
3.3351
16 25 54.0
14.863
3
20 22 57.59
0.6652
24 33 25.6
6.304
3
22 22 58.94
3.3383
16 1130.5
14.433
4
20 25 37.33
%aim
24 25 8.0
sjsn
4
22 26 18.42
3.8318
14 67 2.1
14.513
5
20 28 16.72
3.6586
24 16 40.0
8.663
6
22 27 37.49
3.3145
14 42 29.0
14.590
6
20 30 55.75
3.6476
24 8 1.6
8.735
6
22 29 66.16
3.8078
14 27 51.2
14.667
7
20 33 34.42
3.6418
23 59 13.0
8.805
7
22 32 14.44
3.8013
14 13 9.0
14.741
8
20 36 12.71
3U»48
23 50 14.2
94)63
8
22 34 32.32
3.3947
13 68 22.5
14.813
9
20 38 50.62
3.6383
23 41 6.4
9.380
9
22 36 49.81
3.3883
13 43 31.8
14.880
10
20 41 28.14
3.6317
23 31 46.6
9.895
10
22 39 6.90
3.3818
13 28 37.0
14.947
11
20 44 5.26
3.6163
23 22 18.0
9.658
11
22 41 23.62
3.3755
13 13 38.2
154)13
12
20 46 41.99
3.6086
23 12 39.6
9.719
12
22 43 39.96
3.3693
12 68 35.5
154n7
13
20 49 18 33
3.60-20
23 2 51.6
9.878
13
22 46 66.93
3.3630
12 43 29.0
15.188
14
20 51 54.26
%9m
22 52 54.2
104)36
14
22 48 11.63
3.3668
12 28 18.9
15.198
15
20 54 29.77
3.6683
22 42 47.4
10.191
16
22 60 26.76
3.3507
12 13 5.3
15.396
16
20 57 4.87
3.6614
22 32 31.3
10.844
16
22 62 41.60
3.3447
1167 48.3
15.81S
17
20 59 39.55
3.6746
22 22 6.1
10.495
17
22 54 66.09
3.3887
1142 27.9
15.867
16
21 2 13.82
3.6676
22 1131.8
10.645
18
22 67 10.24
3.3838
1127 4.3
15.430
19
21 4 47.67
3.6606
22 0 48.6
10.703
19
22 69 24.04
3.3370
11 1137.6
15.470
20
21 7 21.09
3.6634
21 49 56.6
104»9
20
23 1 37.49
3.3318
10 66 7.9
15.518
21
21 9 54.07
2.646fl
21 38 55.9
114)63
21
23 3 60.60
3.3168
10 40 35.4
15.665
22
21 12 26.61
3.6886
2127 46.7
11.334
22
23 6 3.38
3.3108
10 25 0.1
15.610
23
21 14 58.72
3.6318
S.21 16 29.0
11.864
23
23 8 16.83
3.3048
&10 9 22.2
16.668
MO
NDAY
2.
WED
NESD
AY 4.
0
21 17 30.39
3Uk340
s21 6 3.0
11.501
0
23 10 27.96
3.1994
& 0 63 41.7
15.696
1
21 20 1.63
3.6167
20 53 28.8
11.686
1
23 12 39.77
3.1943
9 37 68.8
15.7S5
2
21 22 32.42
3.6084
20 4146.5
11.770
2
23 14 61.26
3.1890
9 22 13.6
15.778
3
21 25 2.77
3.6030
20 29 56.3
11.903
3
23 17 2.44
3.1838
0 6 26.2
153)0
4
21 27 32.67
3U946
20 17 58.2
134183
4
23 19 13.32
3.1788
8 60 36.6
15.80
5
21 30 2.12
3.4873
20 5 52.6
13.160
5
23 21 23.90
3.1738
8 34 46.0
15.876
6
21 32 31.13
3.4798
19 53 39.2
13.385
6
23 23 34.18
3.1690
8 18 61.6
15.907
7
21 34 59.71
3.4736
19 41 18.4
13.408
7
23 25 44.18
3.1643
8 2 66.2
15.967
8
21 37 27.85
3.4651
19 28 50.3
13.638
8
23 27 53.90
3.1697
7 46 69.2
15.966
9
21 39 55.54
3.4677
19 16 15.0
13.646
9
23 30 3.34
3.1690
7 31 0.5
15.90)
10
21 42 22.78
3.4608
19 3 32.7
13.768
10
23 32 12.60
3.1504
7 15 0.2
164)17
11
21 44 49.57
3.4430
18 50 43.4
13.878
11
23 34 21.39
3.1460
6 68 58.5
164)40
12
21 47 15.92
3.4366
18 37 47.2
13.991
12
23 36 30.02
3.1416
6 42 55.4
164)09
13
21 49 41.83
3.4383
18 24 44.4
18.108
13
23 38 38.39
3.1878
6 26 61.1
wjm
14
21 52 7.30
3.4306
18 1135.0
18.313
14
23 40 46.61
3.1888
6 10 45.7
16.100
15
21 54 32.33
3.4184
17 58 19.1
18417
15
23 42 64.39
3.1393
6 64 39.2
16.116
16
21 66 66.92
3.4060
17 44 56.9
18.430
16
23 46 2.03
3.1363
6 38 31.8
16.180
17
21 59 21.07
3.3887
17 3128.5
18.533
17
23 47 9.43
3.13M
6 22 23.6
16.14S
18
22 1 44.78
3.8916
17 17 54.0
13.634
18
23 49 16.59
3.in5
6 6 14.6
16.155
19
22 4 8.06
3.3843
17 4 13.6
13.733
19
23 51 23.53
3.1138
4 60 4.9
16.167
20
22 6 30.91
3Jr770
16 50 27.3
18.818
20
23 53 30.26
3.1103
4 33 64.6
16.177
21
22 8 53.32
3.8698
16 36 35.3
18.913
21
23 55 36.76
3.1068
4 17 43.8
16.184
22
22 11 15.31
3.8638
16 22 37.7
14.005
22
23 57 43.06
3.1083
4 132.6
16.100
23
22 13 36.87
3.3658
16 8 34.6
144)95
23
23 59 49.16
3.1000
3 45 21.1
16.104
24
22 15 58.01
3.8489
S 15 54 26.2
14.183
24
0 1 66.06
30968
S. 3 29 9.4
16.107
IV.
JULY, 1855.
101
GREENWICH MEAN TIME.
1
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hoar.
Rifht Aac«iuion.
fori m.
DecUnaUoQ.
Diff.
forlm.
Hour.
Bight AKmsioa.
Diff.
forlm.
Diff.
Ibrlm.
THU
RSDA
Y 5.
SATURDAY 7.
h. m. 8.
■.
O 1 N
II
h. m. a.
a.
O f M
0
0 1 55.06
9.0066
& 3 29 9.4
16.197
0
1 40 33.41
94M00
N. 9 6 30.7
14.810
1
0 4 0.77
TJjnj
3 12 57.5
16.108
1
1 42 36.20
9.0470
9 21 18.1
14.709
2
0 6 6.30
umn
2 56 45.5
16.108
2
1 44 39.05
94M80
9 36 2.0
14.708
3
0 8 11.65
%OBn
2 40 33.6
16.197
3
1 46 41.97
94)401
9 50 42.4
14.643
4
0 10 16.82
94)6«8
2 24 21.9
16.105
4
1 48 44.96
94)9U8
10 5 19.2
14.963
5
0 12 21.82
S4)8d0
2 8 10.3
16.109
5
1 50 48.02
94)515
10 19 52.3
14.599
6
0 14 26.66
9.0798
1 51 58.8
16.188
6
1 52 51.15
94)597
10 34 21.8
14.460
7
0 16 31.35
3.07(n
1 35 47.7
16.181
7
1 54 54.36
94)540
10 48 47.5
14.306
8
0 18 35.88
94n43
1 19 37.1
16.179
8
1 56 57.65
94)555
11 3 9.3
14.880
0
0 20 40.26
3.0710
103 27.1
16.169
9
1 59 1.03
94)671
11 17 27.1
14.983
10
0 22 44.51
34)005
0 47 17.8
16.150
10
2 1 4.51
94)687
113141.0
14.196
11
0 24 48.62
94)613
0 31 9.2
16.187
11
2 3 8.08
94)600
1145 50.8
14.197
12
0 26 52.59
94)6«9
S. 0 15 1.3
16.198
12
2 5 11.75
94)619
1159 56.5
144)66
13
0 28 56.44
94)689
N. 0 1 5.7
16.100
13
2 7 15.52
94)687
12 13 57.9
13.988
14
0 31 0.18
94)619
0 17 11.8
164)08
14
2 9 19.40
94)655
12 27 55.1
18.9n
15
0 33 3.80
94)MS
0 33 16.8
164)75
15
2 11 23.39
94)678
12 4148.1
13.845
16
0 35 7.31
94)575
0 49 20.7
16.057
16
2 13 27.49
94)698
12 55 36.7
13.779
17
0 37 10.71
94)598
1 5 23.5
164)87
17
2 15 31.71
94ni8
13 9 20.9
134B0
18
0 39 14.02
94)548
12125.1
164)15
18
2 17 36.04
94n8S
13 23 0.6
13.694
19
0 41 17.24
94)598
1 37 25.3
15.009
19
2 19 40.50
94)754
13 36 35.8
13.548
20
0 43 20.37
9.0514
153 24.1
15AI8
20
2 21 45.09
94m6
13 50 6.4
18.471
21
0 45 23.41
94)501
2 9 21.4
15.048
21
2 23 49.82
94)799
14 3 32.3
13J83
22
0 47 26.38
94)488
2 25 17.2
15.017
22
2 25 54.69
94)039
14 16 53.4
13.313
23
0 49 29.28
94)476
N. 2 4111.4
15.880
23
2 27 59.69
94)645
N.14 30 9.8
18.988
F»
.IDAY
6.
SU
NDAY
8.
0
0 51 32.10
94)460
N. 2 57 3.9
15.880
0
2 30 4.83
94)668
N.14 43 21.4
I8.I5S
1
0 53 34.86
94)457
3 12 54.6
15.880
1
2 32 10.11
94)809
14 56 28.1
184170
2
0 55 37.57
94)448
3 28 43.5
15.700
2
2 34 15.53
94)017
15 9 29.9
19.087
3
0 57 40.24
9.0440
3 44 30.5
15.767
3
2 36 21.10
94)649
15 22 26.6
194)03
4
0 59 42.87
4 0 15.5
15.788
4
2 38 26.82
94)067
15 35 18.2
19.818
5
1 1 45.45
94)497
4 15 58.4
15408
5
2 40 32.70
94)098
15 48 4.7
19.789
6
1 3 47.99
9.0499
4 31 39.2
15.609
.6
2 42 38.74
9.1090
16 0 46.0
19.645
7
1 5 50.50
94)417
4 47 17.9
15.695
7
2 44 44.94
9.1047
16 13 22.0
19.557
8
1 7 52.99
9^18
5 2 54.3
15.567
8
2 46 51.29
9.1078
16 25 52.7
19.468
9
1 9 55.46
94M10
5 18 28.3
154H7
9
2 48 67.80
9.1100
16 38 18.0
19.878
10
1 11 57.92
94)407
5 33 59.9
15.505
10
2 51 4.48
9.1198
16 50 37.9
19.987
11
1 14 0.37
94M05
5 49 29.0
15.«n
11
2 53 11.34
9.1156
17 2 52.3
19.105
12
1 16 2.81
9.0405
6 4 55.5
15.490
12
2 55 18.37
9.1185
17 15 1.2
19.109
13
1 18 5.25
94)406
6 20 19.4
15.875
13
2 57 25.57
9.1915
17 27 4.4
194)06
14
1 20 7.69
94)407
6 35 40.6
15.880
14
2 59 32.94
9.1945
17 39 2.0
11.018
15
1 22 10.14
94)409
6 50 59.1
15.984
15
3 140.49
9.1975
17 50 53.9
11.818
16
1 24 12.61
94M19
7 6 14.7
15.987
16
3 3 48.21
9.1805
18 2 40.0
11.799
17
1 26 15.10
94)415
7 21 27.4
15.188
17
3 5 56.12
9.1834
18 14 20.3
11.694
18
1 28 17.61
94M90
7 36 37.2
15.186
18
3 8 4.21
9.1363
18 25 54.8
11.595
19
1 30 20.15
94)496
7 51 44.0
154)67
19
3 10 12.48
9.1898
18 37 23.3
11.495
20
1 32 22.72
94MS1
8 6 47.7
154)85
20
3 12 20.93
9.1493
18 48 45.7
11.895
21
1 34 25.32
94M87
8 21 48.3
14.088
21
3 14 29.57
9.1455
19 0 2.1
11.998
22
1 36 27.97
94)144
8 36 45.7
14.080
22
3 16 38.40
9.1487
19 11 12.4
11.190
23
1 38 30.67
94)459
8 51 39.8
14.875
23
3 18 47.41
9.1518
19 22 16.5
114)17
24
1 40 33.41
94)460
N. 9 6 30.7
14.810
24
3 20 56.61
9.1550
N.19 33 14.4
10.0U
102
JULY, 1856.
V.
GREENWICH
MEAN TIME.
1
THK
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
1
Right AflcensioQ.
Diflr.
forlm.
DecUnatton.
Dlff.
forlm
Hoar.
Right Asceofion.
forlm.
DecUoatioa.
Diflr.
forlm.
MO
NDAY
9.
WEDNESDAY 11.
h. m. •.
0.
O 1 N
M
h. in. a.
•.
O 1 N
n
1 ^
3 20 56.61
3.1660
N.19 33 14.4
10.918
0
6 7 63.92
3.3907
N26 1 3.1
4sn
1
3 23 6.00
3.1663
19 44 6.0
10.807
1
6 10 11.40
33824
26 6 57.8
4483
2
3 25 15.58
3.1614
19 54 51.2
10.700
2
6 12 28.98
8.3940
86 10 42.9
4.602
3
3 27 25.35
3.1647
20 5 30.0
10.603
3
6 14 46.66
3.3957
26 15 20.3
4469
4
3 29 35.32
3.1660
20 16 2.3
10.485
4
6 17 4.43
8.3971
26 19 49.3
4.413
1 5
3 31 45.48
3.1713
20 26 28.1
10.377
6
6 19 22.29
3.3967
26 24 9.8
4473
1 6
3 33 55.83
3.1744
20 36 47.4
10.366
6
6 21 40.24
3.3000
26 28 21.8
4.UI
1 7
3 36 6.37
3.1776
20 47 0.1
10.166
7
5 23 58.26
3.1013
26 32 25.4
1400
8
3 38 17.11
3.1606
20 57 6.1
10.046
8
6 26 16.36
3.1035
26 36 20.5
8418
9
3 40 28.06
3.18t0
21 7 6.4
0J8S
9
6 28 34.54
3.1037
26 40 7.1
8.706
10
3 42 39.20
3.I87S
21 16 58.0
9.830
10
6 30 52.79
3.3048
26 43 45.1
8468
11
3 44 50.52
3.1906
21 26 43.8
9.707
11
6 33 11.09
34006
26 47 14.6
1.433
12
3 47 2.02
3.18S7
2136 22.7
9J03
12
6 35 29.45
34067
26 50 35.7
1.380
13
3 49 13.71
3.1960
2145 64.7
9.4T7
13
6 37 47.86
34075
26 53 48.2
8.187
14
3 51 25.60
3.3001
21 55 19.7
9.860
14
6 40 6.31
34082
26 56 52.1
3404
15
3 53 37.69
3.30U
22 4 37.7
9.343
16
6 42 24.81
34087
26 59 47.4
3461
16
3 55 49.97
3.3065
22 13 48.6
9.134
16
6 44 43.34
34093
27 2 34.2
3.701
17
3 58 2.44
3.3007
22 22 52.4
94106
17
6 47 1.90
34007
27 5 12.4
3461
> 18
4 0 15.10
3.313B
22 3149.1
8.886
18
6 49 20.48
34100
27 7 41.9
9430
1 1»
4 2 27.96
3.31W
22 40 38.7
8.766
19
6 51 39.08
34101
27 10 2.8
3.3n
20
4 4 41.00
3.3190
22 49 21.0
8.648
20
6 53 57.70
34106
27 12 15.1
3.111
21
4 6 54.22
3.3331
22 57 55.9
8.M0
21
6 56 16.34
34107
27 14 18.8
1480
22
4 9 7.63
3.3*2
23 6 23.4
8.107
22
6 68 34.98
34107
27 16 13.9
14tf
23
4 11 21.22
TUE
3.3383
SDA^
N 23 14 43.4
10.
ssn
23
6 0 63.61
THU
34107
RSDA
N.27 18 0.3
Y 12.
1.700
0
4 13 35.00
3.3113
N 23 22 66.9
6.148
0
6 3 12.23
94106
N.87 19 38.0
1466
1
4 15 48.95
3.3*43
23 31 1.0
84»8
1
6 6 30.84
94102
87 81 7.1
1413
2
4 18 3.08
3.3t73
23 38 58.9
IJKtt
2
6 7 49.42
94006
87 83 87.6
1.370
3
4 20 17.38
3.3401
23 46 48.8
7.T71
3
6 10 7.98
94098
87 83 39.6
1.197
4
4 22 31.85
3.3430
23 54 31.2
7.846
4
6 12 26.52
94087
87 84 43.0
0488
5
4 24 46.50
3.3466
24 2 6.0
7.618
6
6 14 45.02
94080
37 86 37.8
0488
6
4 27 1.32
3.3406
24 9 33.2
7400
6
6 17 3.47
94071
37 86 33.9
0406
7
4 29 16.31
3.3613
24 16 52.7
7.360
7
6 19 21.88
94065
87 37 1.4
0454
8
4 31 31.46
3.3M0
24 24 4.4
7.134
8
6 21 40.24
34065
87 87 30.4
0411
9
4 33 46.77
3.3M7
24 31 8.1
6J86
9
6 23 68.53
34045
37 87 60.8
0487
10
4 36 2.25
3.3604
24 38 3.9
6.866
10
6 96 16.76
940S4
87 38 8.6
0.194
11
4 38 17.88
3.3030
24 44 61.9
6.786
11
6 88 34.92
94039
87 88 6.8
0418
12
4 40 33.66
3.3646
24 5132.1
6.604
12
6 30 63.01
94000
37 88 0.5
0.160 1
13
4 42 49.59
34670
24 68 4.4
6.473
13
6 33 11.01
9.3806
37 87 46.7
0406 ,
14
4 45 5.67
3.3096
25 4 28.8
6.»8
14
6 35 28.92
3.3860
87 37 34.4
9.446
15
4 47 21.90
3.3730
25 10 45.0
6.306
16
6 37 46.74
34864
87 36 63.5
0.«7 1
16
4 49 38.28
8.37a
25 16 63.1
6JI67
16
6 40 4.47
94BC7
87 86 14.1
0.738
17
4 61 54.80
3.3765
25 22 53.1
6J93
17
6 42 22.11
94000
37 36 26.3
0408
18
4 54 11.44
3.3787
25 28 44.9
6.796
18
6 44 S9.64
9.3811
27 34 30.1
1408
19
4 56 28.21
3.3806
25 34 28.6
6.660
19
6 46 67.05
94806
87 23 86.4
1.148
80
4 58 45.11
3.3039
25 40 3.9
6.633
90
6 49 14.33
94876
37 88 18.3
1.388
21
5 1 2.14
3.3860
25 45 31.1
6J86
81
6 51 31.48
9.3858
87 80 50.9
I49T t
82
6 3 19.28
3.3810
26 50 50.0
6.348
82
6 63 48.61
3.3B»
87 19 31.1
1466 1
83
5 5 36.54
3.380
85 66 0.7
6.110
83
6 66 5.42
9.3807
87 17 43.0
1.708 '
84
6 7 53.92
3.«07
N26 1 3.1
4.073
24
6 58 88.19
S.97SI
N.87 15 66.7
1441 1
1
VI.
JULY, 1855.
103
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
ino..
Dllf
forlm.
DscUnftlion.
Diff.
forlm.
Hour.
RICbtAMenatoa.
DIff.
forlm.
DecUnaUon.
Diff
forlm.
FRI
DAY
13.
SUNDAY
15.
h. m. r
a.
o 1 a
N
h. m. a.
•.
O f §1
0
6 58 33.19
9.9784
N27 15 56.7
1.841
0
8 43 43.30
9.0017
N 33 30 31.7
74»9
1
7 0 38.83
9.9760
27 14 2.1
1.070
1
8 45 47.66
94)870
23 12 37.8
7.783
2
7 3 55.30
9.9785
27 1159.3
9.117
3
8 47 52.74
94)839
23 4 47.8
7.883
3
7 5 11.62
9.9708
37 9 48.1
9.9M
3
8 49 57.53
94rn5
22 56 51.8
7.983
4
7 7 37.78
9.9680
87 7 38.9
9.390
4
8 52 2.04
94n98
22 48 49.7
84)83
5
7 9 43.77
9.9651
37 5 1.5
9.595
5
8 54 6.27
94)680
22 40 41.7
8.189
6
7 11 59.58
9.9093
37 3 36.0
9.060
6
8 56 10.21
94)639
22 33 87.9
8.979
7
7 14 15.32
9.9003
36 59 42.4
9.7W
7
8 58 13.86
94)585
33 34 8.3
8.875 !
8
7 16 30.69
9.9665
26 56 50.7
9.998
8
9 0 17.23
94)687
33 15 43.0
8.4091
0
7 18 45.99
9.9S66
26 53 51.0
80)69
9
9 2 20.31
94)490
38 7 13.1
8.568 ,
10
7 31 Ml
9.9S05
26 50 43.4
8.195
10
9 4 23.11
94M49
31 58 35.5
8.657
11
7 33 16.04
9.9479
26 47 27.9
8.897
11
9 6 25.62
94)895
3149 53.3
8.749
13
7 35 30.76
93438
26 44 4.5
8.458
13
9 8 27.85
94)047
3141 5.6
BMO
13
7 37 45.38
9.9404
26 40 33.1
zum
13
9 10 29.79
94)000
31 33 13.5
8.981
14
7 39 59.60
9.9670
26 36 53.9
8.718
14
9 12 31.45
9.0969
31 33 13.9
90» 1
15
7 33 13.71
9.9SSA
26 33 6.9
8.848
15
9 14 32.82
94)904
31 14 9.9
9.111
16
7 34 37.61
9.9999
26 29 12.2
8.9n
16
9 16 33.91
94)157
81 5 0.7
9.196
17
7 36 41.29
9.9962
26 25 9.7
4.106
17
9 18 34.72
94)110
30 55 46.4
9.981
18
7 38 54.75
9.9995
26 20 59.7
4.939
18
9 20 35.25
94)064
20 46 26.9
9.868
19
7 41 7.99
9.9188
36 16 42.0
4.358
19
9 22 35.50
94)018
20 37 2.3
9.463
20
7 43 31.00
9.9150
26 12 16.7
4.485
30
9 24 35 47
1.9971
20 27 32 5
9.537
31
7 45 33.78
9.9119
26 7 43.9
4US19
31
9 26 35.16
14)094
20 17 57.7
9.631
33
7 47 46.33
9.9079
26 3 3.5
4.787
33
9 28 34.58
1.9877
20 8 18.0
9.708
33
7 49 58.64
9.9(09
N 25 58 15.6
4.800
33
9 30 33.72
14)881
N.19 58 33.3
0.785
SATI
JRDA
Y 14.
*
MOI
^DAY
16.
0
7 52 10.72
9.1009
N 35 53 30.4
4J69
0
9 33 33.59
1.9787
N 19 48 43.8
0.865
1
7 54 22.56
9.1963
35 48 17.9
6.104
1
9 34 31.19
1.9748
19 38 49.5
0.945
3
7 56 34.15
9.1011
35 43 8.1
6.996
3
9 36 39.53
1.9068
19 28 50.5
104)94
3
7 58 45.49
9.1800
35 37 50.9
6.847
3
9 38 37.58
14)668
19 18 46.8
10.109
4
8 0 56.59
9.1916
35 33 36.5
6.407
4
9 40 25.37
1.9609
19 8 38.4
10.178
5
8 3 7.43
9.1783
35 36 54.9
6.587
5
9 42 22.90
14)565
18 58 25.4
10.958
6
8 5 18.00
9.1740
35 21 16.2
5.705
6
9 44 20.17
1.9099
18 48 7.9
10.898
7
8 7 28.32
9.1607
25 15 30.4
6.899
7
9 46 17.18
1.9480
18 37 45.9
10.403
8
8 9 38.38
9.1664
25 9 37.7
6.938
8
9 48 13.94
1.9487
18 27 19.5
10U76
9
8 U 48.18
9.1610
25 3 38.0
6U)53
9
9 50 10.43
1.0894
18 16 48.7
10.648
10
8 13 57.71
9.1666
24 57 31.4
6.168
10
9 52 6.67
1.9351
18 6 13.7
10.690
11
8 16 6.97
9.1699
24 51 17.9
6.988
11
9 54 2.65
1.9009
17 55 34.4
10.690
13
8 18 15.96
9.1477
24 44 57.5
6.896
12
9 55 58.38
1.9967
17 44 50.8
10.760
13
8 20 24.68
9.1481
24 38 30.3
6.508
13
9 57 53.87
1.9996
17 34 2.9
10.830
14
8 22 33.13
9.1885
24 3156.4
6.690
14
9 59 49.12
1.9185
17 23 11.0
10.898
15
8 24 41.31
9.1880
24 25 15.9
6.730
15
10 144.12
1.9145
17 12 15.1
104)65
16
8 26 49.21
9.1908
24 18 28.9
6.840
16
10 3 38.88
1.9105
17 1 15.3
11.033 1
17
8 28 56.83
9.1947
24 1135.4
6.948
17
10 5 33.40
1.9066
16 50 11.5
114)07 1
18
8 31 4.17
9.1900
24 4 35.3
7.066
18
10 7 27.69
1.9097
16 39 3.7
11.169
19
8 33 11.23
9.1158
33 57 28.8
7.169
19
10 9 21.74
1.8908
16 27 52.1
11.996
30
8 35 18.01
9.1106
23 50 15.9
7.908
30
10 11 15.56
1.8900
16 16 36.7
11.968
31
8 37 24.51
9.1000
23 42 56.7
7.878
31
10 13 9.15
1.8919
16 5 17.5
11.861
33
8 39 30.72
9.1019
23 35 31.3
7.477
33
10 15 3.51
1.8875
15 53 54.6
11.418
33
8 41 36.65
94)066
33 37 59.6
7.580
33
10 16 55.65
1.8838
15 42 28.0
11.478
34
8 43 42.30
9.0017
N 33 30 31.7
7.689
34
10 18 48.57
1.8809
N 15 30 57.7
11.688
104
JULY, 1855.
VII.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour
Right AManakm.
Diff
forlm.
Declination.
Dlff.
forlm.
Hour.
Right Aacanaion.
Diff
forlm.
DecUnatkn.
Diff
forlm.
TUE
SDAY
17.
THURSDAY 19.
h. in a.
■.
O 1 II
II
h. m. a.
a.
O 1 «
M
0
10 18 48.57
1.8802
N 15 30 57.7
n.Ats
0
11 45 55.46
1.7733
N. 5 23 8.2
13^14
1
10 20 41.28
1.87tf6
15 19 23.9
11.003
1
11 47 41.83
1.7736
5 9 36.6
18.616
2
10 22 33.77
1.8730
15 7 46.6
11.650
2
11 49 28.17
1.7730
4 56 3.6
13.569
3
10 24 26.05
1.8695
14 56 5.9
11.708
3
11 51 14.47
1.7715
4 42 29.2
18.865
4
10 26 18.12
IS0»1
14 44 21.8
11.765
4
11 53 0.75
1.7713
4 28 53.4
184»7
5
10 28 9.98
IMfl
14 32 34.2
1 1.8-20
5
11 54 47.01
1.7709
4 15 16.3
13.639
6
10 30 1.64
1.800.1
14 20 43.3
11.874
6
11 56 33.26
1.7707
4 137.9
18.6A0
7
10 31 53.10
1.8M0
14 8 49.2
11.938
7
11 58 19.49
1.T705
3 47 58.3
18.670
8
10 33 44.37
1.85-26
13 56 51.9
11.982
8
12 0 5.71
1.7703
3 34 17.5
18.600
0
10 35 35.47
1.8194
13 44 51.3
13406
9
12 1 51.93
1.7703
3 20 35.5
18.710
10
10 37 26.39
1.84ft4
13 32 47.6
13.089
10
12 3 38.15
1.7704
3 6 52.4
lS.7-id
n
10 39 17.11
1.8183
13 20 40.8
13.138
11
12 5 24.38
1.7705
2 53 8.3
18.745 1
I 13
10 41 7.64
1.8406
13 8 30.9
13.188
12
12 7 10.61
1.7707
2 39 23.1
U.76^2 1
1 13
10 42 57.99
1.8317
12 56 18.1
13.-288
13
12 8 56.8G
1.7710
2 25 36.9
13.778 1
i 14
10 44 48.16
l.8»47
12 44 2.4
13-386
14
12 10 43.13
1.7714
2 1149.7
18.794 11
1 1^
10 46 38.15
1.8SI7
12 31 43.h
13.333
15
12 12 29.43
1.7718
158 1.5
13.810 \
1 16
10 48 27.97
1.8288
12 19 22.4
13.380
16
12 14 15.75
1.7733
1 44 12.5
13AI4
I 17
10 50 17.62
1.8'2fl0
12 6 58.2
12.4-27
17
12 16 2.11
1.7728
1 30 22.7
18.&18
1 1^
10 52 7.11
1.8134
1154 31.3
13.473
18
12 17 48.50
1.7785
1 16 32.0
18.8J0 ,
' 19
10 53 56.45
1.8-209
1142 1.6
13.AI8
19
12 19 34.93
1. 743
1 2 40.6
U.863
20
10 55 45.64
1.8161
11 29 29.2
13.56-2
20
12 21 21.41
1.7751
0 48 48.4
18.875 \
21
10 57 34.68
1.8150
11 16 54.2
13.005
21
12 23 7.94
1.7760
0 34 55.6
13.887 |.
22
10 59 23.57
1.8m
11 4 16.7
13.647
22
12 24 54.53
1.7770
0 21 2.1
18.837
23
11 1 12.31
WED3
I.8II0
N.10 5136.6
lY 18.
13.690
23
12 26 41.18
FR
1.7780
IDAY
N. 0 7 8.1
20.
18.905
1
1
0
11 3 0.91
1.8W8
N 10 38 53.9
13.733
0
12 28 27.89
1.7790
s 0 6 46.5
18.918 i
1
11 4 49.38
1.8068
10 26 8.7
I-2.TI3
1
12 30 14.67
1.7803
02041.6
18.933 1
2
11 6 37.72
1.8047
10 1321.1
13.813
2
12 32 1.53
1.7815
0 34 37.1
18M '
3
11 8 25.93
1.80-26
10 0 31.2
13.852
3
12 33 48.45
1.7828
0 48 33.1
18.9S7 '
4
11 10 14.02
l.8oa^
9 47 39.0
1*2.890
4
12 35 35.46
1.7843
1 2 29.5
18.943 l{
6
11 12 1.98
l.7»>
9 34 44.5
13.928
5
12 37 22.56
1.7857
1 16 26.2
18.947
6
11 13 49.83
1.70&)
9 2147.7
12.965
6
12 39 9.75
1.7873
1 30 23.2
UJ63 ''
7
11 15 37.57
1.7947
9 8 48.4
13.003
7
12 40 57.04
1.7800
144 20.5
18J»7
8
11 17 25.20
1.7939
8 55 47.0
13.039
8
12 42 44.43
1.7907
1 58 18.0
18.960
0
11 19 12.73
1.79U
8 42 43.6
13.073
0
12 44 31.92
1.79^25
2 12 15.7
18.963 '
10
1121 0.15
1.7804
* 8 29 38.1
18.108
10
12 46 19.53
1.7944
2 '26 13.5
18.964 1
11
11 22 47.47
1.7879
8 16 30.6
18.142
11
12 48 7.25
1.7964
2 40 11.4
13.965 i
12
11 24 34.69
1.7803
8 321.1
13.175
12
12 49 55.09
1.7985
2 54 9.4
13.965 1
13
11 26 21.83
1.7848
7 50 9.7
13.«7
13
12 51 43.06
1.8006
3 8 7.3
18.964 ]
14
11 28 8.88
1.78M
7 36 56.3
13.-08
14
12 53 31.16
1.8W7
3 22 5.1
13.908 ,
15
11 29 55.81
1.78il
7 23 41.1
I8.-208
15
12 55 19.39
1.8050
3 36 2.9
13.9(12 1
16
11 31 42.72
1.7808
7 10 24.1
13.-298
16
12 57 7.76
1.8074
3 50 0.5
13.W0 '
17
11 33 29.53
1.7796
6 57 5.4
itj\n
17
12 58 56.28
1.8008
4 3 58.0
18.936
18
11 35 1627
1.7783
6 43 45.0
UMl
18
13 0 44.95
1.8138
4 17 55.2
16.953
1<)
11 37 2.94
1.7778
6 30 23.0
13.381
19
13 2 33.77
1.8150
4 31 52.2
IJ.947 ,
20
11 38 49.55
1.778S
6 16 59.3
13.408
20
13 4 22.75
1.6178
4 45 48.8
18.M9
21
11 40 36.10
1.7758
6 3 33.9
13.486
21
13 6 11.90
1.8906
4 59 45.1
18.985
22
11 42 22.60
1.7744
5 50 6.9
18.463
22
13 8 1.22
1.8^134
5 13 41.0
18^17
23
11 44 9.05
1.7738
5 36 38.3
18.489
23
13 9 50.71
1.8364
5 27 36.3
18.918
1 24
I
11 45 55.46
1.77W
V 5 23 8.2
13.514
24
13 11 40.38
1.8905
5 4131.2
"^
VIII.
JULY, 1855.
105
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Atcmslon.
DiflT
for 1 m.
Declination.
Diff
forlm.
Hour.
Diff.
fori m.
Declination.
Diff.
forlm.
SATl
JRDA1
{ 21.
MONDAY
23.
h. m. •.
a.
O 1 M
N
h. m. s.
■.
O 1 M
u
1 0
13 11 40.38
1.8395
S. 6 4131.2
13.909
0
14 44 36.79
34)757
S.16 21 37.4
19.866
I
13 13 30.24
1.8897
5 55 25.5
18.900
1
14 46 41.54
3.0838
16 33 67.0
13.395
1 2
13 15 20.29
1.83d9
6 9 19.2
13.890
2
14 48 46.73
34)900
16 46 12.9
13.388
1 3
13 17 10.54
1.8393
6 23 12.3
13.879
3
14 50 52.35
94)973
16 58 25.0
1^170
i 4
13 19 0.99
I.S49A
6 37 4.6
18.867
4
14 52 58.41
3.1047
17 10 33.3
13.106
i 5
13 20 51.64
1.8459
6 50 56.2
18.8M
5
14 55 4.91
3.1 I3i
17 22 37.6
134)88
1 ^
13 22 42.50
I.a495
7 4 47.0
18.840
6
14 57 11.86
3.1197
17 34 37.9
11.970
1 7
13 24 33.58
1.85SI
7 18 37.0
18.8i5
7
14 59 19.26
3.1979
17 46 34.1
11.900
1 8
13 26 24.88
1.8968
7 32 26.0
13.810
8
15 1 27.12
3.1848
17 58 26.0
11.880
9
13 28 16.40
1.8006
7 46 14.1
18.793
9
15 3 35.44
3.1495
18 10 13.7
11.758
10
13 30 8.15
1.864A
8 0 1.2
13.775
10
15 5 44.22
3.1603
18 2167.0
11.688
11
13 32 0.15
1.8685
8 13 47.2
13.757
11
15 7 53.48
3.1583
18 33 35.7
11.608
12
13 33 52.38
1.8746
8 27 32.1
13.788
12
15 10 3.20
3.1669
18 46 9.9
11.580
13
13 35 44.86
1.8767
8 41 15.8
18.718
13
15 12 13.40
3.1749
18 66 39.4
11.449
14
13 37 37.59
1.8809
8 54 58.3
134)97
14
15 14 24.09
3.1893
19 8 4.2
11.878
15
13 39 30.57
ism
0 8 39.5
13.675
15
15 16 35.25
3.1903
19 19 24.2
11.399
16
13 41 23.81
1.8 «7
9 22 19.4
134)59
16
15 18 46.90
3.1989
19 30 39.3
11.309
17
13 43 17.33
1.894i
9 35 57.8
134)98
17
15 20 69.03
9J»64
19 4149.3
11.135
18
13 45 11.11
1.8988
9 49 34.8
13 608
18
15 23 11.66
3.3147
19 62 54.2
114)38
19
13 47 5.17
1.9085
10 3 10.3
18.678
19
15 25 24.79
3.3980
20 3 53.8
10.949
20
13 48 59.52
1.9063
10 16 44.2
18.559
20
15 27 38.41
3.3813
20 14 48.1
10.866
21
13 50 54.16
1.9181
10 30 16.6
18.534
21
15 29 62.54
3.3397
20 25 36.9
10.766
22
13 52 49.09
li>180
10 43 47.1
18.490
22
15 32 7.17
3.3481
20 36 20.2
10.673
23
13 54 44.32
1.9980
S.10 67 16.9
18.466
23
16 34 22.31
3.3566
S.20 46 67.8
10.678
SV^
n)AY
22.
TUE
SDAY
24.
0
13 56 39.85
1.9981
Sll 10 43.0
0
16 36 37.96
3.3659
s 20 67 29.7
10.483
1
13 58 35.69
1.9883
1124 8.2
18.408
1
15 38 54.13
3.3737
21 7 55.8
10.385
2
14 0 31.84
1.9385
1137 31.4
18.870
2
15 41 10.81
3.3899
21 18 15.9
10.985
3
14 2 28.31
\S4SS
1150 62.7
18.387
3
16 43 28.00
3.3908
21 28 30.0
10.184
4
14 4 25.10
1.9493
12 4 11.9
18.803
4
16 45 45.71
3.9995
2138 37.9
10.081
5
14 6 22.23
1.9548
12 17 29.0
13.368
5
15 48 3.94
3..3089
2148 39.5
9.975
6
14 8 19.68
1.9605
12 30 44.0
13.331
6
15 50 22.69
3.3169
21 68 34.8
9.867
7
14 10 17.48
1.9669
12 43 56.7
13.193
7
15 52 41.97
3.3956
22 8 23.6
9.758
8
14 12 15.62
1.0790
12 57 7.1
13.153
8
15 55 1.77
3.3343
22 18 5.8
9.648
9
14 14 14.11
1.9778
13 10 15.1
18.113
9
15 57 22.09
3.3430
22 27 41.5
9.586
10
14 16 12.95
1.9638
VA 23 20.7
13.071
10
15 59 42.94
3.3518
22 37 10.2
9439
11
14 18 12.16
1.9898
13 36 23.7
134)38
11
16 2 4.31
3.3605
22 46 32.0
9.307
12
14 20 11.73
1.9960
13 49 24.1
19.983
12
16 4 26.21
9.3699
22 55 46.9
9.188
13
14 22 11.67
3.0033
14 2 21.8
13.938
13
16 6 48.64
3.3780
23 4 54.6
94)67
14
14 24 11.98
3.0084
14 16 16.7
13.809
14
16 9 11.60
3.3869
23 13 55.0
8.945
15
14 26 12.67
34)147
14 28 8.8
19.844
15
16 11 35.09
3.3958
23 22 48.1
8.839
16
14 28 13.74
3.0913
14 40 58.0
19.795
16
16 13 69.11
3.4046
23 3133.8
8.697
17
14 30 15.21
3.0977
14 53 44.2
19.744
17
16 16 23.65
9.4134
23 40 11.8
8.570
18
14 32 17.07
3.0843
15 6 27.3
19.699
18
16 18 48.71
3.439i
23 48 42.2
8.449
19
14 34 19.33
34U10
15 19 7.3
19.689
19
16 21 14.30
e.4310
23 67 4.8
8.819
20
14 36 22.00
3.0478
15 31 44.0
13.685
20
16 23 40.42
3.4397
24 5 19.6
8.180
21
14 38 25.07
3.0547
15 44 17.5
13.599
21
16 26 7.06
3.4483
24 13 26.2
84)45
22
14 40 28.56
34)617
15 66 47.6
13.479
22
16 28 34.22
9.4570
24 2124.8
7.907
23
14 42 32.46
34)687
16 9 14.2
13.415
23
16 31 1.90
3.46^56
24 29 15.0
7.768
24
14 44 36.79
34)767
S.16 2137.4
13.336
24
16 33 30.10
3.4749
24 .36 57.0
..»
14
106
JULY, 1855.
IX.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right Aacension.
niff.
for 1 m.
DeclinatloiL
DiflT.
forlm
Hour.
Right AKOMion.
Dlff.
forlm.
DMT
forlm.
WEDN
ESDA
Y 26.
FRIDAY
27.
t
1
h. m. a.
f.
O 1 u
M
h. m. 8
8.
O 1 N
« '
0
16 33 30.10
2.4745
S 24 36 57.0
7.028
0
18 40 30.14
2.7045
s 27 29 22.4
0J8t
1
16 35 58.81
2.48W
24 44 30.5
7.486
1
18 43 16.07
27W5
27 28 17.1
1.100 !
2
16 38 28.04
3.4013
24 5155.4
7.343
2
18 46 2.11
2.7083
27 26 59.5
1JW7
3
16 40 57.78
3.499B
24 59 11.7
7.188
3
18 48 48.26
3.70BO
27 25 29.4
1.004
4
16 43 28.02
a.fi<»3
25 6 19.2
7.0^W
4
18 51 34.50
3.7713
27 23 46.9
IJII
5
16 45 58.77
5.5W7
25 13 17.7
0.000
5
18 54 20.80
3.7728
27 2152.0
3.018
6
16 48 30.02
i,^m
25 20 7.2
0.740
6
18 57 7.17
2.7732
27 19 44.7
3.396
7
16 51 1.76
«.'832
25 26 47.6
6.006
7
18 59 53.58
2.7739
27 17 24.9
3.484 '
8
16 53 34.00
a.wi4
25 33 18.8
0.442
8
19 2 40.03
2.7744
27 14 52.6
3.043
9
16 56 6.72
a>iw
25 39 40.6
0.^295
9
19 5 26.50
3.7746
27 12 7.9
3.860
10
16 58 39.93
«.ft573
25 45 53.0
0.127
10
19 8 12.98
3.7747
27 9 10.7
3JO07
11
17 1 13.61
3.0663
25 51 55.7
ft.807
11
19 10 59.46
3.7746
27 6 1.0
8.350
13
17 3 47.77
2.4732
25 57 48.9
6.806
12
19 13 45.93
2.7743
27 2 38.8
3.473 i
13
17 6 22.40
2.4610
26 3 32.3
5.041
13
19 16 32.37
2.7737
26 50 4.2
3.081 ;
»4
17 8 57.49
2.flflB7
26 9 5.7
5.475
14
19 19 18.77
2.7790
26 55 17.0
3.888 ;
' 15
17 11 33.04
2.W03
26 14 29.2
5.308
15
19 22 5.13
3.7730
26 51 17.5
4.005 ;
16
17 14 9.04
2.aor
26 19 42.6
5.138
16
19 24 51.42
3.7708
26 47 5.6
4402
17
17 16 45.49
3.0111
26 24 45.8
4.807
17
19 27 37.63
3.7004
26 42 41.3
4.507
18
17 19 22.38
3.0188
26 29 38.7
4.706
18
19 30 23.76
3.7078
26 38 4.8
4.713
1 19
17 21 59.70
3.aaM
26 34 21.3
4Jai
19
19 33 9.78
3.7000
26 33 15.9
4.017 :
20
17 24 37.45
%am
26 38 53.3
4.447
20
19 35 55.69
3.7041
26 28 14.8
5.131
21
17 27 15.61
%am
26 43 14.9
4,270
21
19 38 41.48
3.7020
26 23 1.4
5.834
22
17 29 54.18
3.0400
26 47 25.8
AJtm
22
19 41 27.14
3.7507
26 17 35.9
5.837
23
17 32 33.15
THU
RSDA
S.26 51 25.8
Y 26.
8.912
23
19 44 12.65
SAT
3.7073
URDA
S.26 1158.2
Y 28.
0.738
J
0
17 35 12.51
3.0003
S26 55 15.1
t.780
0
19 46 58.00
3.7547
S26 6 8.5
0.098
1
17 37 52.26
3.0M7
26 58 53.4
3.547
1
19 49 43.18
3.7518
26 0 6.8
0.138
2
17 40 32.39
2.0719
27 2 20.7
3.302
2
19 52 28.18
3.7486
25 53 53.1
0.328
3
17 43 12.88
3.077H
27 5 36.9
3.176
3
19 55 13.00
3.7452
25 47 27.4
6J^Zt
4
17 45 53.73
2.6««7
27 8 41.9
2.988
4
19 57 57.62
2.7418
25 40 49.9
0.734
5
17 48 34.92
3.flHW
27 11 35.6
2.800
5
20 0 42.02
3.7389
25 34 0.6
0.990
6
17 51 16.46
3.6!»frJ
27 14 18.0
2.610
6
20 3 26.20
3.7S4A
25 26 59.6
7.115
7
17 53 58.33
2.:o(w
27 16 48.9
2.418
7
20 6 10.15
3.7305
25 19 46.9
7J00
8
17 56 40.51
2.7aw
27 19 8.3
2.2-20
8
20 8 53.86
3.7363
25 12 22.6
7J00
9
17 59 23.01
2.7 lOH
27 21 16.1
2J»2
9
20 11 37.32
3.7290
25 4 46.8
7.001
10
18 2 5.81
2.7167
27 23 12.2
1.837
10
20 14 20.52
3.7177
24 56 59.5
lJ»i
11
18 4 48.89
2.TW
27 24 56.6
1.041
11
20 17 3.44
3.7132
24 49 0.0
Bjni '•
12
18 7 32.25
2.7-2*)
27 26 29.3
l.t4A
12
20 19 46.09
3.7085
24 40 51.0
8.2» '
13
18 10 15.88
3.72W
27 27 50.1
1.24H
13
20 22 28.45
3.7087
24 32 29.9
8.413 .
14
18 12 59.77
3.73S3
27 28 59.1
IJMO
14
20 25 10.52
3J0B87
24 23 57.H
»jm
15
18 15 43.89
3.7373
27 29 56.1
0.MO
15
20 27 52.29
3.00)5
24 15 14.7
8UW
16
18 18 28.25
2.7419
27 3041.1
O.AM
16
20 30 33.75
3.0883
•24 6 20.7
8.M8
17
18 21 12.83
3.74IH
27 31 14.0
0.44H
17
20 33 14.89
3.0810
23 57 16.0
0.108
18
18 23 57.63
3.74*2
27 3134.8
O.'HA
18
20 35 55.71
3.0n6
23 48 0.5
0JM6
19
18 26 42.62
3.7513
27 3143.4
0.042
19
20 38 36.20
3.0?»
23 38 34.4
9.529
20
18 29.37.80
3.7ft43
27 31 39.8
0.10-2
20
20 41 16.35
3.0603
23 28 57.9
fjm
l| 21
1 "
1 18 32 13.15
3.7573
27 3123.9
0.307
21
20 43 56.15
3.0005
23 19 11.0
9.888
' 18 34 58.67
t.7M»
27 30 55.7
0.572
22
20 46 35.60
3.0545
23 9 13.7
wjm
. 23
18 37 44.33
3.7023
27 30 15.2
0.778
23
20 49 14.69
3.MU
22 59 6.3
10.307 *
• 24
18 40 30.14
3.7014
s 27 29 22.4
0AM
24
20 51 53.42
3.0434
S22 48 48.7
10J75
X.
JULY, 1855.
107
GREENWICH
MEAN TIME.
I
THE
MOON'S RIGHT .
^CENSION AND DECLINATION.
Hour.
1
Right Aaoooiion
Dur.
for 1 m.
Dedinaikm.
Diif
for 1 m
Hour.
Right Afceoakm.
Diff.
forlm.
DeclinaUon.
Diff.
for 1 m.
su>
IDAY
29.
TUESDAY
31.
h m. ■.
••
O 1 N
M
h. m. s.
s.
O 1 N
N
t 0
20 51 53.42
3^194
s 22 48 48.7
10.376
0
22 50 55.75
9.3197
S.1158 28.0
16.808
1 1
20 54 31.78
9.636)
22 38 21.2
10.640
1
22 53 14.69
^3197
1142 34.0
16.998
3
20 57 9.77
9.6300
22 27 43.8
10.708
2
22 55 33.27
9J067
1126 36.5
16.987
1 3
20 59 47.38
9.6937
22 16 56.6
10.864
3
22 57 51.49
9J007
11 10 35.6
164)43
' 4
21 2 24.61
9.6178
22 5 59.9
11.098
4
23 0 9.35
9.9948
10 54 31.3
164)97
1 ^
21 5 1.45
941106
21 54 53.7
11.180
5
23 2 26.87
9.9890
10 38 24.0
16.148
6
21 7 37.89
9.6049
2143 38.1
11.336
6
23 4 44.03
^9883
10 22 13.5
16.198
: 7
21 10 13.94
9.fi07ft
21 32 13.3
11.488
7
23 7 0.85
9.97T7
10 6 0.1
16.946
i 8
21 12 49.60
i'bO^
21 20 39.4
11.639
8
23 9 17.34
9.9799
9 49 44.0
16.992
1 9
21 15 24.85
9.A841
21 8 56.5
11.788
9
23 11 33.50
9.9607
9 33 25.1
16.336
: 10
21 17 59.70
2.4773
20 57 4.7
11.986
10
23 13 49.33
9.9618
9 17 3.7
I6J76
11
21 20 34.13
9.A706
20 45 4.3
19.080
11
23 16 4.83
9.9609
9 0 40.0
16.414
I 12
21 23 8.16
9.«B7
20 32 55.1
19.993
12
23 18 20.02
9.9806
8 44 13.9
16.469
! 13
21 25 41.77
%6m
20 20 37.4
19.363
13
23 20 34.89
9.9464
8 27 45.7
16.487
i 14
21 28 14.97
9.6498
20 8 11.5
19.602
14
23 22 49.45
9.9409
8 11 15.5
16 6 '1
1 1^
21 30 47.75
9JM29
19 55 37.2
19.638
15
23 25 3.71
9.9869
7 54 43.4
16.663
! 1®
21 33 20.11
9.A388
19 42 54.8
19.779
16
23 27 17.67
9.9809
7 38 9.4
16.680
! 17
21 35 52.06
9.6980
19 30 4.5
19.903
17
23 29 31.34
9.I9M
7 21 33 8
16.007
18
21 38 23.58
9.A9I8
19 17 6.3
13.033
18
23 31 44.71
2.9«6
7 4 56.6
16.689
19
21 40 54.68
9.6148
19 4 0.4
18.169
19
23 33 57.80
9.9160
6 48 17.9
164166
1 20
21 43 25.36
9.60'78
18 50 46.9
13.986
20
23 36 10.61
9.9113
6 31 38.0
14.077
; 21
21 45 55.62
9.6008
18 37 25.9
13.411
21
23 38 23.15
9.90e8
6 14 56.7
164»7
22
21 48 25.45
9.4037
18 23 57.6
13.630
22
23 40 35.42
9.9098
5 58 14.3
16.716
1 23
21 50 54.86
f.4866
S18 10 22.3
13.648
23
23 42 47.43
9.1979
s. 5 4130.9
16.730
1
MOl
4DAY
30.
WEDNES
DAY,
AUG. 1.
! .
1 I
21 53 23.84
21 55 52.40
21 58 20.53
9.47W
9.4793
9.4063
s 17 56 39.8
17 42 50.5
17 28 54.5
13.764
13.877
0
23 44 59.17
1 9.1987
& 5 24 46.6
11.744
134188
1 3
22 0 48.24
9.4663
17 14 51.9
14.098
4
22 3 15.53
9.4613
17 0 42.8
14.906
1 ^
22 5 42.40
9.44a
16 46 27.4
14.310
1 6
22 8 8.85
9U373
16 32 5.7
14.419
PHASES (
DF Tl
HE MOON
[.
t 7
22 10 34.88
9.4304
16 17 37.9
14.619
8
9
22 13 0.50
22 15 25.70
9.4936
16 3 4.3
15 48 24.8
144110
9.4166
14.706
Day. h. m.
.6 1 28
.13 16 1
10
1 11
22 17 50.49
22 20 14.88
9.4098
9.4030
15 33 39.6
15 18 49.0
14.798
14.890
C Last Qaar
# New Mooi
^ First Quai
O Full Mood
ter, .
7
5
i 12
13
1 14
22 22 38.85
22 25 2.41
22 27 25.58
9.3009
9.3804
9.3097
15 3 52.9
14 48 51.5
14 33 45.0
14.979
164)66
16.160
rter.
. 21 19 51
.28 18 22
8
0
! 16
22 29 48.34
22 32 10.71
9.3761
14 18 33 5
16.939
3.3606
14 3 17.1
16.319
17
22 34 32.69
9.3030
13 47 56.1
16.390
C Perigee,
C Apogee,
C Perigee,
Iky. h.
..17
. . 16 20
. . 39 13
4
18
22 36 54.27
9.3666
13 32 30.4
16.466
•
•
19
22 39 15.47
9.3600
13 17 0.3
16.687
• •
1
20
22 41 36.28
9.3436
13 126.0
16.608
• •
0
21
22 43 56.71
9.3373
12 45 47.4
16.677
22
22 46 16.76
9.8311
12 30 4.8
16.743
23
22 48 36.44
9.3919
12 14 18.3
16.807
24
22 50 55.75
9.3187
S 11 58 28.0
16.868
108
JULY, 1856.
XI.
GREENWICH MEAN
TIME.
1
LUNAB DISTANCEa
i^
Slar'«Nun«
P L.
P.L.
P.L.
P. L.
= 1
and
Noon.
of
mh.
of
Vlh.
of
IXh.
of
1
PtMiiioo.
DIff.
Dlff.
Diff
Diff.
Spica W.
O 1 H
98 19 6
aon
O t u
100 10 41
9070
O 1 If
102 2 17
9077
O 1 *
103 53 51
9079
Antares W.
52 25 2
9073
54 16 44
9079
56 826
9079
58 0 8
9073
Jupiter E.
aPe^ E.
32 17 28
9001
30 26 15
9005
28 35 8
9000
26 44 8
9107
55 52 27
9690
54 14 25
9000
52 37 0
9008
51 0 18
9734
a Anetit E.
96 2 34
9140
94 12 36
9188
92 22 37
9138
90 32 38
9141
2
Antares W.
67 17 54
9068
69 9 12
9009
71 0 23
9086
72 5126
1
9108 ;
a Pegasi E.
43 10 36
9009
41 40 13
3066
40 11 22
3151
38 44 14
8940
a Arietis E.
81 23 33
9106
79 34 2
9108
77 44 39
9170
75 55 26
9176 1
Aldebaran E.
11143 45
9130
109 53 32
9138
106 3 23
9137
106 13 20
9141
3
Antares W.
82 4 19
9130
83 54 19
9147
85 44 6
9166
87 33 40
9105
a Arietis E.
66 52 15
9999
65 4 20
9983
63 16 41
9944
61 29 19
9907
Aldebaran E.
97 5 16
9176
95 16 11
9183
93 27 18
919i
91 38 39
9909
Sun E.
130 36 18
9446
128 53 52
9100
127 11 37
9465
125 29 34
9474
4
Antares W.
96 37 53
9116
98 25 56
9997
100 13 43
9980
102 1 13
9900
a Aquile W.
54 38 10
8M0
55 56 56
3643
57 16 33
3501
58 36 56
3464
Jupiter W.
12 46 44
9M6
14 31 8
9M9
16 16 7
9816
18 126
98 JO
a Arietis E.
52 37 28
9331
50 52 13
9346
49 7 23
9800
47 23 0
9805
Aldebaran E.
82 39 4
39M
80 51 57
9906
79 5 7
99n
77 18 34
9980
Sun E.
117 2 48
9590
115 22 U
9BI6
113 41 50
9600
112 1 46
9061
5
a Aquile W.
65 27 29
3343
66 50 51
3898
68 14 30
3810
69 38 23
3806
Foroalhaut W.
31 51 27
3000
33 21 40
9800
34 52 55
9010
3625 1
9876
Jupiter W.
26 48 47
9335
28 33 56
9349
30 18 54
9861
32 3 39
9861
a Arietis E.
38 48 28
9609
37 7 17
9680
35 26 46
9661
33 46 58
9000
Aldebaran E.
68 30 20
9854
66 45 39
9807
65 1 17
9860
63 17 14
9»6
Mars E.
82 59 IB
9590
81 18 45
9641
79 38 29
9554
77 58 31
9066
Sun E.
103 45 39
9094
102 7 17
9088
100 29 14
9069
98 5129
9666
6
aAquile W.
76 39 49
3986
78 4 14
3980
79 28 38
8909
80 52 59
3906
Fumalhaut W.
44 14 3
978i
45 48 54
9773
47 23 57
9707
48 59 8
tm
Jupiter W.
a Pegasi W.
40 43 51
9418
42 27 7
9494
44 10 8
9430
45 52 52
9446
30 21 36
4349
31 27 50
4166
32 36 46
4090
33 48 6
3886
Aldebaran E.
54 42 13
9400
53 0 16
9485
51 18 41
9600
49 37 28
9610
Saturn E.
69 38 31
9109
67 56 25
9470
66 14 38
9460
64 33 9
90O9
Mars E.
69 43 18
9885
68 5 11
9040
66 27 22
9001
64 49 50
9075
Sun E.
90 47 16
9733
89 11 20
9747
87 35 42
9700
86 022
9773
7
a Aquile W.
87 53 00
3336
89 16 28
3340
90 39 43
3309
92 2 43
3376
Fomalbaut W.
56 55 47
970
58 31 4
9700
60 6 17
3700
61 41 26
9n6
Jupiter W.
a Pegasi W.
54 22 33
9801
56 3 41
9515
57 44 33
9697
59 25 8
9688
40 11 29
3466
41 32 7
3430
42 53 43
3809
44 10 9
3864
Aldebarao E.
41 17 9
9008
39 38 18
9899
37 59 53
9048
36 21 56
9864
Saturn E.
56 10 23
9506
54 30 44
9061
52 51 23
9804
51 12 20
9007
Mars E.
66 46 42
9741
55 10 57
9765
53 35 30
9700
52 0 20
9709 :
Sun E.
78 8 6
9641
76 34 31
9866
75 1 14
9006
73 28 14
9861
8
Fomalhant W.
69 35 19
9805
71 9 41
9019
72 43 53
9810
74 17 56
980
Jupiter W.
a Pejrasi W.
67 44 14
9A04
69 23 17
90O4
71 2 6! 9815
72 40 40
9090
51 17 34
3i-i7
52 43 12
3911
54 9 8 3106
55 35 20
3167 j
___-.
Aldebaran E.
28 19 55
9795
26 45 20
1
9881
25 11 33 9073
93 38 39
~i
XII.
JULY, 1855.
109
i
GREENWICH MEAN
TIME.
II
LUNAR DISTANCEa
1 .
Star** Name
P. L.
P. L.
P. L.
P. L.
°l
•rid
Midnight.
of
XVh.
of
XVIEh.
of
XXIh.
of
1
Poaitioo.
Dlff.
Dur.
Oitr.
DHL
Spica W.
O 1 M
105 45 23
«80
O 4 U
107 36 53
3088
0 1 u
109 28 18
9086
0 1 u
111 19 38
9090
Antares W.
59 51 48
9076
61 43 26
3077
63 35 0
3080
65 26 30
9084
Jupiter E.
24 53 1»
3116
23 2 44
3137
21 12 26
9140
19 22 28
9107
a Pegasi £.
49 24 23
5m4
47 49 21
3818
46 15 17
9870
44 42 20
9937
a Arietit £.
88 42 41
31tf
86 52 47
3146
85 2 57
3149
83 13 12
9168
2
Antores W.
74 42 21
910Q
76 33 7
3116
78 23 42
3138
80 14 6
S180
a Pegasi E.
37 18 59
tut
35 55 49
8480
34 35 2
8038
33 16 52
S781
a Arietis E.
74 6 23
3ISt
72 17 31
319J
70 28 52
3901
68 40 26
3911
Aldebaran E.
104 23 24
3147
102 33 37
3164
100 44 0
9161
98 54 33
9167
3
Antores W.
89 23 1
3174
91 12 7
3181
93 0 58
9194
94 49 34
3906
a Arietia E.
59 42 16
3*J0
57 55 32
3984
56 9 9
3998
54 23 7
3814
Aldebaran E.
89 50 14
33li
88 2 4
3931
86 14 8
3983
84 26 28
9348
Sun E.
123 47 44
3486
122 6 9
3194
120 24 47
3004
118 43 40
96U
4
Antores W.
103 48 26
3389
105 35 22
3974
107 22 0
3386
109 8 20
9990
aAquile W.
59 58 0
8483
61 19 40
8406
62 41 51
8889
64 4 28
8861
Jupiter W.
19 46 57
3817
21 32 32
9830
23 18 3
3838
25 3 29
9838
a Arietis E.
45 39 4
3406
43 55 37
9436
42 12 40
9460
40 30 17
9476
Aldebaran E.
75 32 18
3801
73 46 20
9814
72 0 41
3837
70 15 21
3840
8uN E.
110 21 58
3674
108 42 27
3887
107 3 14
3089
105 24 18
3619
5
aAquil* W.
71 2 27
8999
72 26 40
8908
73 51 0
8980
75 15 24
8988
Fomalhaut W.
37 57 50
3848
39 31 15
9836
41 5 9
38U8
42 39 27
3791
Jupiter W.
33 48 10
3870
35 32 28
9080
37 16 31
3891
39 0 19
9409
a Arietis E.
32 7 58
3686
30 29 51
9678
28 52 41
9736
27 16 36
3781
Aldebaran E.
61 33 32
3410
59 50 11
3136
58 7 11
3188
56 24 32
3468
Mars E.
76 18 52
3181
74 39 31
3894
73 0 28
3608
71 21 44
3631
Sun E.
97 14 2
3678
95 36 53
3003
94 0 3
9r706
92 23 30
3719
6
a Aquil* W.
82 17 15
3801
83 41 25
8808
85 527
8816
86 29 20
8897
Fomalhaut W.
50 34 24
3700
52 9 44
3760
53 45 5
9760
55 20 27
3760
•
Jupiter W.
a Pefrasi W.
47 35 21
9468
49 17 34
3470
50 59 30
3489
52 41 9
3499
35 1 31
8787
36 16 47
8606
37 33 39
8616
38 51 57
8647
Aldebaran E.
47 56 37
3688
46 16 10
3660
44 36 6
3666
42 56 25
3086
Saturn E.
62 51 59
3616
61 11 8
3699
59 30 35
9643
57 50 20
3866
Mars E.
63 12 36
3080
61 35 41
9709
59 59 4
3716
58 22 44
9799
Sun E.
84 25 19
2787
82 50 34
9801
81 16 7
3816
79 41 58
3898
7
aAquile W.
93 25 28
8888
94 47 57
8406
96 10 8
8499
97 32 0
8440
Fomalhaut W.
63 16 27
3780
64 51 21
3786
66 26 8
3791
68 0 48
9798
Jupitar W.
61 5 28
3660
62 45 32
9661
64 25 21
9079
66 4 55
368t
a Pegasi W.
Aldebaran E.
45 39 19
8830
47 3 7
899i
48 27 28
8967
49 52 18
t346
34 44 28
3680
33 7 29
3710
31 31 3
3786
29 55 11
3768
Saturn E.
49 33 35
3631
47 55 8
3684
46 16 59
9649
44 39 8
3660
Mars E.
50 25 28
3706
48 50 53
9807
47 16 34
9819
45 42 31
3883
Sun E.
71 55 31
3804
70 23 5
9907
68 50 55
9990
67 19 1
3983
8
Fomalhaut W.
75 51 48
3886
77 25 29
9844
78 59 0
9869
80 32 20
9861
Jupiter W.
74 19 0
3687
75 57 5
9647
77 34 56
9667
79 12 33
3667
a Pegasi W.
57 145
8178
58 28 21
8169
59 55 7
8168
61 22 0
tl60
Aldebaran E.
22 6 46
3076
20 36 2; 8087
19 6 34
8106
17 38 30
8179
110
JULY, 1855.
XIII.
GREENWICH MEAN
TIME.
LUNAR DISTANCEa
Sur'tfNaiDe
sod
Pbaition.
Noon.
P L.
of
Diff.
nih.
P L.
of
DidT.
VI*.
PL
of
Dm
IXh.
P. L.
of
DiC
8
Saturn
Mara
Sun
E.
K.
E.
O 1 u
43 1 34
44 8 45
65 47 23
VTS
9646
4948
O 1 It
41 24 18
42 35 16
64 16 2
9087
9806
9900
O 1 H
39 47 21
41 2 3
62 44 57
9701
9871
9971
38 10 49
39 99 7
61 14 8
9714
9068
9088
9
Fomalhaot W.
Jupiter W.
a Pegaai W.
Man E.
Sum £.
82 5 29
80 49 57
62 48 58
31 48 25
53 43 49
9870
«n
SIM
9946
83 38 26
82 27 8
64 16 1
30 17 5
52 14 31
9879
9087
8160
9900
8066
85 11 12
84 4 5
65 43 7
28 46 2
50 45 28
9886
9097
816i
9978
8006
86 43 46
85 40 49
67 10 14
97 15 15
49 16 39
9707
8160
9867
8080
10
Fomalhaut W.
Jupiter W.
Sun E.
94 23 34
93 41 19
4156 10
9940
9768
8189
95 54 54
95 16 48
40 28 48
9967
9108
8161
97 26 1
96 59 5
39 140
9907
9ni
8168
98 56 55
98 27 11
37 34 47
99n
9789
8170
16
Sun
Spica
Anurw
W.
E.
E.
26 10 54
63 4 40
108 57 27
8608
8078
8071
27 31 9
61 36 4
107 28 42
8606
8081
8078
98 51 98
60 7 31
106 0 0
8801
8084
8076
30 11 51
58 39 2
104 31 20
8497
8066
8on
17
Sun
Spica
Autares
W.
E.
E.
36 54 23
51 17 11
97 8 32
8489
8091
8088
38 14 59
49 48 55
95 40 2
8488
8096
8064
39 35 37
48 20 40
94 11 33
8466
8096
8084
40 56 18
46 52 26
92 43 4
84as
8090
8068
18
Sun
Reflfulos
Spica
Aoures
W.
W.
E.
E.
47 40 23
15 23 42
39 31 19
85 20 27
8470
SftM
8096
8078
49 1 21
16 49 23
38 3 5
83 51 50
8466
8906
8096
8076
50 22 24
18 15 26
36 34 49
82 23 10
8409
8166
8194
8078
51 43 31
19 41 50
35 6 32
80 54 27
8469
8179
8000
8009
19
Sun
Reffulos
Venus
Spica
Antaree
W.
W.
W.
E.
E.
58 30 10
96 58 22
13 15 27
27 44 52
73 20 53
8488
8104
8ft»
8087
59 51 55
28 26 27
14 33 55
26 16 29
72 0 45
8497
8096
8169
8987
89a
61 13 41
29 54 43
15 53 3
24 48 4
70 31 28
8490
8086
8689
8087
8940
62 35 35
31 23 11
17 12 44
23 19 39
69 9 5
8419
8074
8614 '
8000
8088
20
Sun
Regttloa
Veoua
Antarea
a AquilflB
W.
W.
W.
E.
E.
69 27 20
38 48 46
23 57 15
61 32 59
108 37 26
8S70
8099
8431
9097
8980
70 50 11
40 18 32
25 19 8
60 2 42
107 24 37
8861
8019
8406
9986
8900
79 13 19
41 48 30
96 41 19
58 39 14
106 11 93
8861
8009
8800
9979
8968
73 36 95
43 18 40
98 3 47
57 1 35
104 57 46
8840
9098
8976
8801
21
Sun
VeoM
Aoures
a Aqoila
W.
W.
E.
E.
80 35 41
35 0 19
49 25 15
98 44 17
tm
8803
99n
8761
82 0 15
36 24 28
47 53 18
97 28 34
8900
8907
9906
8744
83 95 9
37 48 55
46 91 6
96 19 33
8966
9910
9994
9T97
84 50 6
39 13 41
44 48 39
94 56 14
9919
8966
9091
8700
99
Sun
Venot
Anuree
a AqniJflB
W.
W.
E.
E.
91 50 39
46 22 10
37 2 I8i
88 30 27
8107
8178
9916
8090
93 96 28
47 48 51
85 28 9
87 12 32
8160
8166
9800
8098
94 58 37
49 15 53
33 53 41
85 54 93
8U4
8180
9796
8911
96 91 5
50 43 10
39 18 54
8436 1
81 n
8190
9711
8000
33
Sun
Venua
Spica
Anurea
W
W.
W.
E.
103 43 49
58 5 48
21 58 23
94 20 6
89n
8090
9789
105 13 20
50 35 28
23 34 19
29 43 21
8010
8007
9709
9001
106 48 90
01 5 39
95 10 47
21 6 16
9991
9086
9007
108 13 44
69 36 0
90 47 46
19 98 52
9078
90S8
96»
XIV.
JULY, 1855.
Ill
_^ !.:_
GREENWICH MEAN
TIME.
1
LUNAR DISTANCES. ||
= 1
1
8
Star** Name
nid
PMiiioa.
Midnight.
P. L.
of
Ditr.
XVh.
P. L
of
Diflr.
974S
9909
8007
xvm»».
P. L.
of
mtr.
XXIh.
PL.
of
Saturn
Mara
Sun
E.
E.
E.
0 1 u
36 34 21
37 56 26
59 43 34
300A
O 1 H
34 58 18
36 24 1
58 13 15
O J II
33 22 34
34 51 53
56 43 11
3766
9991
8090
O 1 «
31 47 9
33 20 1
55 13 23
9m
9984
8089
9
Fomalhaut W.
Jupiter W.
aPegasi W.
Mara E.
Sun E.
88 16 8
87 17 20
68 37 23
25 44 46
47 48 5
9907
97 1«
SIAO
SUOl
MOl
89 48 18
88 53 38
70 4 32
24 14 34
46 19 45
9917
97*26
8169
8016
8109
91 20 15
90 29 44
71 31 39
22 44 41
44 51 39
9096
9786
8164
8081
8114
92 52 1
92 5 38
72 58 43
21 15 7
43 23 47
9986
9744
8167
8041
8137
10
Fomalhaut W.
Jupiter W.
Sun E.
100 27 36
100 2 5
36 8 9
9789
8188
101 58 3
101 36 47
34 41 46
9898
9797
8901
103 28 18
103 11 19
33 15 38
8009
9806
8914
104 58 19
104 45 41
31 49 45
8099
9818
8997
16
Son
Spica
Ad tares
W.
E.
E.
31 32 18
57 10 35
103 2 42
S496
MW8
9079
32 52 47
55 42 11
101 34 7
8494
8090
8081
34 13 18
54 13 49
100 5 34
8498
8091
8089
35 33 50
52 45 29
98 37 3
8499
8098
8089
17
Sun
Spica
Antares
W.
E.
E.
42 17 1
45 24 12
91 14 34
9480
8097
8088
43 37 47
43 55 59
89 46 4
8478
8097
8089
44 58 36
42 27 46
88 17 33
8476
8097
8089
46 19 28
40 59 33
86 49 1
i
8479
8080 1
18
Sun
Regulus
Spica
Antares
W.
w.
E.
E.
53 4 41
21 8 33
33 38 14
79 25 40
84M
8JM
8091
8069
54 25 56
22 35 35
32 954
77 56 49
8448
8149
8091
8068
55 47 18
24 2 54
30 41 34
76 27 54
8444
8198
8091
8060
57 8 45
25 30 30
29 13 14
74 58 55
8489
8114
8091
8067
19
Sun
Regulus
Venus
Spica
Antares
W.
W.
W.
E.
E.
63 57 38
32 51 52
18 32 53
21 51 12
67 32 33
8400
8064
8491
8087
80d0
65 19 49
34 20 46
19 53 27
20 22 47
66 2 53
8396
8068
8471
8091
8019
66 42 10
35 49 53
21 14 23
18 54 27
6433 4
8898
8048
8468
8096
8019
68 4 40
37 19 13
22 35 40
17 26 12
63 3 6
8379
8089
8487
8108
8006
20
Sun
Regulus
Venus
Antares
a Aquile
W.
W.
W.
E.
E.
74 59 50
44 49 2
29 26 32
55 30 44
103 43 47
8880
9083
8860
9900
8840
76 23 27
46 19 38
30 49 34
53 59 41
102 29 26
8818
9969
8846
9860
8819
77 47 18
47 50 30
32 12 52
52 28 25
101 14 43
8806
9967
8889
9940
8799
79 11 22
49 21 37
33 36 27
50 56 57
99 59 40
8994
9946
8817
9999
8780
21
Sun
Venus
Antares
a Aquilae
W.
W.
E.
E.
86 15 26
40 38 45
43 15 56
93 39 37
8998
8940
9809
8693
87 41 2
42 4 7
41 42 57
92 22 43
8918
8998
98*6
8678
89 6 56
43 29 49
40 9 42
91 5 33
8198
8906
9849
8664
90 33 8
44 55 49
3836 9
89 48 8
8188
8190
9898
8649
22
Sun
Venus
Antares
a Aquile
W.
W.
E.
E.
97 48 54
52 11 1
30 43 48
83 17 27
8101
8101
97M
8S89
99 17 3
53 39 9
29 822
81 58 41
8089
8068
9741
8680
100 45 34
55 7 39
27 32 37
80 39 45
8066
8066
2796
8671
102 14 27
56 36 32
25 56 31
79 20 39
8041
8046
9711
8664
23
Sun
Venus
Spica
Antares
W.
W.
W.
E.
109 44 31
64 6 53
28 25 15
17 51 9
9904
9947
9040
90S8
111 15 42
65 38 12
30 3 15
16 13 7
9984
99d7
9690
9696
112 47 18
67 9 56
31 41 43
14 34 48
9916
9907
9099
9614
114 19 18
68 42 6
33 20 40
12 56 12
9896
9687
9678
9601
112
JULY, 1855.
XV.
1 ~ ~ —
GREENWICH MEAN
TIME.
1
1
LUNAR DISTANCES.
^^
Sur** Name
P. L
P. U
P. L.
P. L
S3
and
Noon.
of
iir».
of
Vlh.
of
IXK
of
PMiiioa.
Diff.
S557
Diff.
Diff
8647
Diff
a Aquile E.
O 1 M
78 1 25
O 1 II
76 42 4
8553
75 22 37
0 i N
74 3 05
8515 1
Jupiter E.
107 18 28
J665
105 40 47
9638
104 2 42
9619
102 24 14
9ti01
24
Sun W.
115 51 42
9B76
117 24 31
98M
118 57 46
9BS7
120 31 26
9817
Venus W.
70 14 42
9866
71 47 45
9ft45
73 21 14
3835
74 55 9
9801
Spica W.
35 0 5
9557
36 39 59
9536
38 20 22
9516
40 1 13
»t96
a Aquiltt E.
67 25 15
S556
66 5 52
8565
64 46 39
8675
63 27 37
8W8 1
Jupiter E.
94 5 39
3510
92 24 39
»191
90 43 13
9479
89 1 21
9458
35
Sum W.
128 26 0
TTW
130 2 17
9703
131 38 54
9064
133 15 55
9607
VenuB W.
82 51 34
9701
84 28 13
9W1
86 5 18
9660
87 42 51
9641
Spica W.
48 32 31
9397
50 16 10
9377
52 0 18
9858
53 44 53
93»
a Aquile E.
56 57 25
9711
55 40 50
3750
54 24 56
S794
53 9 48
8845
Jupiter E.
80 25 19
9860
78 40 47
9!M3
76 55 48
9838
75 10 22
9805
Fuinalhaut E.
81 3 37
9571
79 24 2
9653
77 44 2
9636
76 3 39
9531
a Pegaai E.
101 18 31
9758
99 43 8
9736
98 7 16
7714
96 30 55
9093
26
VenuB W.
95 57 14
9515
97 37 24
96-n
99 17 59
9610
100 58 59
9498
Spica W.
62 34 32
9)49
64 21 47
9933
66 9 26
9910
67 57 30
9900
Aiiures W.
16 42 4
9007
18 28 52
**17
20 16 9
9338
22 3 55
9310
Jupiter E.
66 16 41
9318
64 28 40
a»9
62 40 15
9186
60 51 26
9170 '
Fomalhaut E.
67 36 55
9459
65 54 44
»|9
64 12 19
9440
62 29 41
9430 '
a Pegaai E.
88 22 32
9001
86 43 39
9560
85 4 25
9679
83 24 51
9560
27
Venus W.
109 29 46
9415
111 13 0
9400
112 56 35
9887
114 40 29
9875
1
Spica W.
77 3 43
9134
78 54 5
9113
80 44 47
9006
82 35 49
9086
Antores W.
31 9 20
9197
32 59 38
9118
34 50 18
9009
36 41 19
9086
Jupiter E.
61 41 41
9noo
49 50 41
9087
47 59 22
9070
46 7 46
9064
Fomalhaut E.
53 53 44
M08
52 10 20
9410
50 27 0
9415
48 43 47
9438 ,
a Pegasi E.
75 2 59
9511
73 23 1
9505
71 40 55
9100
69 59 42
9497
28
Spica W.
91 55 12
9W7
93 47 49
9039
95 40 38
9091
97 33 39
9014
Aiitares W.
46 0 51
90S4
47 53 32
9030
49 46 26
9017
51 39 33
9019
Jupiter K.
36 45 49
9031
34 52 48
9016
32 59 38
9011
31 6 21
9006
Fomalhaut E.
40 12 2
9au
38 31 8
9548
36 51 1
9809
35 11 55
9SO
a Pe^i E.
61 33 40
9517
59 52 50
9537
58 12 15
9541
56 31 59
9M0 1
a Anetis £.
102 21 0
9006
100 29 53
9093
98 38 41
9086
96 47 21
9079
129
Antares W.
61 7 21
loee
63 1 14
1986
64 55 11
1984
66 49 9
1994
1
a Pegaai E.
48 18 13
970-i
46 41 30
9748
45 6 0 9799|
43 31 31
98117
1 a Arietit E.
87 27 58
9055
85 35 49
9058
83 43 37
9053
81 51 24
9061
30) Anures W.
76 18 52
lOOS
78 13 38
1996
80 6 19
9001
81 59 52
9097
a Arielis E.
72 30 41
9066
70 38 50
9079
68 47 8 9979
66 55 36
9906
I Aldebann E.
102 49 18
9ass
100 56 35
9090
99 3 57 9040
97 11 25
9040
1 Saturn £.
120 53 16
9041
119 0 46
9044
117 8 31
9048
115 16 2
9054
31 AnUret W.
9135 8
9044
93 17 34
9069
95 9 47
9009
07 144
»7«
aAquile W.
50 49 18
S6i5
53 7 25
8555
53 36 40 8493
54 47 22
8480
a A rietU E.
57 41 17
9141
55 5120
91M
54 1431 9107
52 19 3^
9184
Aldeharmo K.
87 51 13
9on
85 50 47
9093
84 8 36! 9109
82 17 40
9119
, ] Saturn E.
105 56 48
*m
104 5 32
vm
102 14 .^U) 9100
100 23 43
9IIS
l' I Mar. E.
119 56 13
93 i»
118 858
3-i'*
116 21 57, 9308
114 35 10
991t
XVI.
JULY, 1855.
113
GREENWICH MEAN
J
TIME.
LUNAR DISTANCES.
Sur** Nmme
P. L.
P. L.
P. L.
P. L.
«l
and
Midnight.
of
XVh.
of
xvmh.
of
XXIh.
of
^1
Position.
Dlff
Dlff
Dlff.
8646
Diff.
1
1 83
a Aqailtt E.
O 1 u
72 43 30
S544
O 1 M
7123 54
8644
O 1 U
70 4 18
O 1 It
68 44 44
8660
1
Jupiter E.
100 45 21
9068
99 6 3
9666
97 26 20
9646
95 46 13
9698
24
Sun W.
122 5 32
7798
123 40 2
9779
125 14 58
9700
126 50 19
9740
Venus W.
70 29 32
978S
78 4 22
9768
79 39 39
9749
81 15 23
9799
Spica W.
41 42 32
3476
43 24 19
9466
45 6 35
9486
46 49 19
9416
a Aquilae E.
62 8 50
800ft
60 50 21
8096
59 32 15
8660
58 14 35
8678
1
Jupiter E.
87 19 2
S484
85 36 16
9416
83 53 4
9897
82 925
9878
25
Sun W.
134 53 19
9849
136 31 8
9089
138 9 20
9615
139 47 54
9600
VenuB W.
89 20 50
9031
90 59 16
9001
92 38 9
9069
94 17 29
9664
Spica W.
55 29 55
9891
57 15 24
9809
59 1 20
9064
60 47 43
9966
a Aquiltt E.
51 55 32
8804
50 42 16
dsr,0
49 30 7
4046
48 19 13
4188
Jupiter E.
73 24 30
9987
71 38 11
9270
69 51 27
9963
68^ 4 17
9936
Fomalhaut E.
74 22 55
9007
72 41 52
9494
71 0 30
9163
69 18 51
9470
a Pegaai E.
94 54 6
9874
93 16 51
9664
91 39 9
9685
90 I 2
9618
26
Venus W.
102 40 22
9176
104 22 9
9460
106 4 19
9443
107 46 52
9499
Spica W.
69 45 58
9184
71 34 50
9169
73 24 5
9163
75 13 43
9189
Antares W.
23 52 8
9199
25 40 48
9174
27 29 54
9158
29 19 25
9149
Jupiter E.
59 2 14
9156
57 12 38
9141
55 22 41
9198
53 32 21
9118
Fomalhaut E.
60 46 40
949*
59 3 45
9416
57 20 31
9410
55 37 10
9406
a Pegasi E.
81 44 59
9M6
80 450
9636
78 24 26
9595
76 43 48
9517
27
Venus W.
116 24 40
9809
118 9 9
9861
119 53 54
9341
121 38 54
9831
Spica W.
84 27 9
9076
86 18 47
9065
88 10 40
9066
90 2 49
9046
Anures W.
38 32 39
9076
40 24 17
9064
42 16 12
9063
44 8 24
9043
Jupiter E.
44 15 52
9068
42 23 41
9044
40 31 16
9087
38 38 39
9098
Fomalhaut E.
47 0 45
9483
45 17 58
9448
43 35 32
9467
41 53 32
9488
a Pegasi E.
68 18 25
9497
66 37 7
9499
64 65 52
9609
63 14 42
9606
28
Spica W.
99 26 52
9000
101 20 13
90(Vt
103 13 41
9000
105 7 15
1996
Antares W.
53 32 51
9006
55 26 18
9D00
57 19 52
1996
59 13 33
1991
Jupiter E.
29 12 59
9006
27 19 34
9006
25 26 8
9007
23 32 44
9019
Fomalhaut E.
33 33 58
9700
31 57 18
3779
30 22 14
9868
28 49 8
9978
a Pe^i E.
a Arietis E.
54 52 7
9660
53 12 44
9603
51 33 53
9639
49 55 41
96d4
94 55 48
9071
93 4 4
9064
91 12 8
9050
89 20 5
9056
29
AnUres W.
68 43 8
1984
70 37 8
1986
72 31 6
1987
74 25 1
1988
a Pegasi E.
41 58 17
9M6
40 26 31
8004
38 56 23
8099
37 28 4
3193
a Arietis E.
79 59 9
9069
78 6 56
9064
76 14 46
9067
74 22 41
9061
30
Antores. W.
83 53 16
9019
85 46 31
9019
87 39 35
2096
89 32 28
9086
a Arietis E.
65 4 13
90O4
63 13 5
9106
61 22 13
9116
59 31 36
9136
Aldebaran E.
95 19 2
9069
93 26 48
9069
91 34 45
9066
89 42 53
9073
Saturn E.
113 23 52
90M
111 31 50
9066
109 39 58
9078
107 48 17
9081
81
Antares W.
98 53 22
9087
100 44 41
9100
102 35 40
9114
104 26 18
9198
a Aquile W.
56 8 56
8890
57 31 24
8847
58 54 41
8811
60 18 40
8980
a Arietis . E.
50 23 33
9909
48 35 8
9990
46 47 11
9940
44 59 43
9950
Aldebaran E.
80 27 1
9194
78 36 39
9187
76 46 36
9149
74 56 52
9163
Saturn £.
98 33 12
9199
96 42 57
9140
94 52 59
9163
93 3 20
9166
Mars E.
112 48 40
9990
111 2 26
9309
109 16 30
9316
107 30 52
9898
15
114
AUGUST, 1855.
I.
AT GREENWICH APPARENT NOON.
t
Wed.
Thur.
Fri.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
Sun,
Mun.
Tues.
Wed
Thur.
Fri.
Sat.
Sun.
Mon.
Tues.
Wed.
Thur.
Fri.
Sat.
Sun.
Mon.
Tues. 28
Wed. 29
Thur.
Fri.
THE SUN'S
Apparent
Right AjKeiMiaa.
8 44 11.59
8 48 4.50
8 51 56.83
8 55 48.58
8 59 39.74
9 3 30.33
7 20.34
11 9.77
14 58.63
9 18 46.93
9 22 34.67
9 26 21.85
9 30 8.46
9 33 54.52
9 37 40.02
9 41 24.97
9 45 9.39
9 48 53.29
9 52 36.67
9 56 19.53
10 0 1.88
10
10
10
3 43.76
7 25.17
11 6.12
10 14 46.63
10 18 26.72
10 22 6.40
10 25 45.71
10 29 24.66
10 33 3.25
10 36 41.52
Diff for
1 hour.
9.718
9.694
9.670
9.646
9.622
9.598
9.574
9.550
9.526
9.502
9.478
9.455
9.482
9.409
9.886
9.868
9.840
9.818
9.297
9.276
9.255
9.285
9.216
9.197
9.179
9.168
9.148
9.188
9.118
9.104
9.091
Apparent
DecUna
inatioa.
N.18 7 21.4
17 52 12.1
17 36 45.3
17 21 1.3
17 5 0.3
16 48 42.5
16 32 8.4
16 15 18.2
15 58 12.2
15 40 50.6
15 23 ia8
15 5 22.2
14 47 16.1
14 28 55.8
14 10 21.6
13 51 33.9
13 32 32.9
13 13 19.1
12 53 52.8
12 34 14.3
12 14 24.0
11 54 22.2
11 34 9.2
11 13 45.3
10 53 10.8
10 32 26.0
10 11 31.2
9 50 26.6
9 29 12.7
9 7 49.8
8 46 18.0
Sat 32 10 40 19.49| 9.079 N. 8 24 37.7154.86 15 53.72 64.41 0 0.86 0.777
DiflC
for
I hour.
87.51
88.25
38.97
89.69
40.89
41.08
41.76
42.42
48.07
48.71
44.84
44.95
45.56
46.15
46.72
47.27
47.81
48.84
48.86
49.86
49.84
50.81
50.78
51.28
51.67
52.09
52.50
52.90
58.28
53.66
54.02
Semi-
15 48.07
15 48.19
15 48.32
15 48.45
15 48.58
15 48.72
15 48.86
15 49.01
15 49.16
15 49.32
15 49.48
15 49.65
15 49.82
15 49.99
15 50.17
15 50.35
15 50.54
15 50.74
15 50.94
15 51.14
15 51.34
15 51.55
15 51.76
15 51.97
15 52.18
15 52.39
15 52.61
15 52.83
15 53.05
15 53.27
15 53.49
aderad
Time
of the
Semidi-
pMeiDf
the
Merid.
ian.
66.66
66.57
66.48
66.40
66.31
66.23
66.14
66.06
65.98
65.89
65.81
65.73
65.65
65.57
65.49
65.41
65.34
65jy7
65.20
65.13
65.06
64.99
64.92
64.86
64.80
64.74
64.68
6462
64.56
64.51
64.46
Equation of
Time,
to be
to
oubtraeted
from
Amaarent
Time.
6 3.46
5 59.83
5 55.62
5 50.82
5 45.44
5 39.48
5 32.95
5 25.85
5 18.17
5 9.93
5 1.15
4 51.79
4 41.88
4 31.41
4 20.38
4 8.81
3 56.70
3 44.08
3 30.94
3 17.28
3 3.12
2 48.49
2 33.38
2 17.82
2 1.82
1 45.40
1 28.58
1 11.39
0 53.83
0 35.91
0 17.67
Diff.
for
Ibour
0.139
0.163
0.187
0.211
0.235
0.259
0.288
0.307
0.331
0.355
0.878
0.401
0.424
0.447
0.471
0.494
0.517
0.539
0.560
0.581
0.602
0.622
0.641
0.659
0.677
0.693
0.706
0.723
0.738
0.758
0.765
NoT«. — Mean Time of the Semldlwneter paseing may be found by mibtrecting Os. 18 from the Sidereal Time.
II.
AUGUST, 1855.
115
GRKENWICH MEAN TIME.
1
i
THE
MOON'S
Horiaonul Pftnlkx.
Meridian FMnge.
B
NOOD.
Hklalgbt.
Noon.
DIflr. for
Ihour.
Midnight.
Diff. for
1 hour.
DIff. for
1 hour.
Age.
1
2
8
1^ 2^.8
16 16.8
16 3.2
1^ 2^.1
16 10.3
15 56.2
60 2f.2
59 37.3
58 47.3
—1.63
1.98
2.18
66 6.4
59 12.8
58 21.6
— r.83
2.09
2.13
h. m.
15 382
16 26.5
17 14.4
m.
2.05
2.00
2.01
d.
18.3
19.3
20.3
4
5
6
15 49Si
15 25.8
15 23.8
15 42.4
15 29.6
15 18.3
57 56.2
57 7.1
56 22.9
2.10
1.95
1.74
57 81.2
56 44.3
56 2.8
2.03
1.86
1.61
18 2.9
18 52.9
19 44.5
2.06
2.12
2.17
21.3
22.3
23.3
7
8
9
15 13.3
15 4.5
14 57.3
15 08.7
15 00.6
14 54.3
55 44.3
55 12.0
54 45.9
1.48
1.22
0.97
55 27.4
54 58.1
54 34.9
1.36
1.09
0.85
20 37.3
21 30.2
22 22.1
2.20
2.18
2.12
24.3
25.3
26.3
10
11
12
14 51.8
14 47.7
14 45.3
14 49.5
14 46.3
14 44.5
54 25.5
54 10.9
54 2.0
0.73
0.48
-0.27
54 17.4
54 5.8
53 59.3
0.61
0.37
—0.16
23 11.8
23 58.7
6
2.01
1.90
27.3
28.3
29.3
13
14
15
14 44.2
14 44.6
14 46.7
14 44.2
14 45.5
14 48.5
53 58.1
53 59.8
54 7.4
-H).05
0.20
0.45
53 58.2
54 2.9
54 13.7
-M).07
0.82
0.69
0 42.9
1 24.6
2 4.8
1.81
1.71
1.66
0.7
1.7
2.7
16
17
18
14 50.6
14 56.3
15 4.3
14 58.2
15 0.0
15 9.0
54 21.6
54 42.8
55 11.7
0.78
1.04
1.37
54 31.3
54 56.2
55 29.1
0.88
1.20
1.53
2 44.3
3 24.1
4 5.5
1.66
1.69
1.78
3.7
4.7
5.7
19
20
21
15 14.4
15 26.5
15 40.4
15 20.2
15 83.3
15 48.0
55 48.5
56 33.3
57 24.3
1.71
2.00
2.24
56 10.1
56 58.1
57 51.8
1.87
2.12
2.32
4 49.5
5 37.5
6 30.3
1.92
2.10
2.80
6.7
7.7
8.7
22
23
24
15 55.6
16 11.0
16 25.1
16 3.4
16 18.3
16 31.2
58 19.9
59 15.7
60 7.4
2.34
2.27
1.98
58 48.0
59 42.4
60 29.9
2.82
2.15
1.75
7 28.2
8 30.2
9 34.1
2.50
2.62
2.64
9.7
10.7
11.7
25
26
27
16 36.6
16 43.8
16 46.1
16 40.7
16 45.7
16 45.3
60 49.4
61 16.3
61 24.7
1.46
-t-0.75
—0.06
61 5.0
61 23.0
61 21.6
1.12
4-0.85
—0.47
10 37.0
11 36.8
12 32.9
2.66
2.41
2.26
12.7
13.7
14.7
28
29
80
31
16 43.1
16 35.1
16 22.9
16 8.4
16 39.7
16 29.4
16 15.9
16 0.6
61 13.5
60 43.7
59 59.4
59 6.0
0.87
1.67
2.06
2.33
61 0.7
60 23.0
59 33.5
58 37.6
1.24
1.80
2.22
2.37
13 25.6
14 16.2
15 5.9
15 55.8
2.15
2.09
2.07
2.10
15.7
16.7
17.7
18.7
32
15 52.7
15 45.1
58 9.1
—2.37
57 41.0
—2.32
16 46.8
2.15
19.7
116
AUGUST, 1855.
III.
1
GREENWICH MEAN TIME.
THE
MOOJTS RIGHT
ASCENSION AND DECLINATION.
Hoar.
Kighl Aaronsion.
Diif
forlm.
Decliiiailoo.
Diflr.
fbrlm.
Hour.
Right AKeMioa.
Diflr.
forlm.
Declinatioa.
DiflC
fori m.
WEDr
^ESDl
\Y 1.
FRIDAY
3.
h. in. ■.
••
O 1 M
N
b. m. «.
•.
O 1 II
M
0
23 44 59.17
9.1937
S. 5 24 46.6
16.744
0
127 2.90
9.0993
N. 7 43 53.6
15.560
1
23 47 10.66
9.I89A
5 8 1.5
16.757
1
1 29 8.44
9.0999
7 59 24.9
15.409
2
23 49 21.90
9.I8.U
4 51 15.8
16.768
2
1 31 13.97
9.0999
8 14 52.6
15.439
3
23 51 32.90
9.1819
4 34 29.4
16.777
3
1 33 19.51
9i)99S
8 30 16.7
15.370
4
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11.555
IV.
AUGUST, 1855.
117
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Rifhl Aacennioo.
DiflU
forim.
DecUnatloQ.
Diff
Ibrim.
Hour.
BifhtAMMkn.
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forim.
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5.
TUESDAY 7.
h. m. •.
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3 8 35.33
9.iao6
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7
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8
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3 28 7.62
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5 15 43.43
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3 30 18.65
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5 24 63.31
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5 27 10.92
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4 19 1.26
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4 41 33.42
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6 31 27.01
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4 43 49.35
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25 12 19.7
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4 46 5.39
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21
4 48 21.55
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25 24 40.9
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21
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27 33 1.6
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4 50 37.83
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25 30 39.3
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27 31 17.9
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24
4 55 10.71
9.9758
N.25 42 11:5
6.630
24
6 45 8.22
9.9758
N27 30 13.6
1.140
118
AUGUST, 1855.
GREENWICH
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right AacMMkNi.
DiflU
forlm.
DecUMUoQ.
Dur.
forliiL
Hour.
£-
«
ttigteAM«nikm.
Diff.
forlra.
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[ISDA^
r 9.
* "SATURDAY 11.
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0.
O 1 «
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0
6 45 8.22
2.9768
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6 47 24.71
9.9788
27 29 1.0
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2
6 49 41.08
9.7716
27 27 40.1
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2
8 35 6.32
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6 51 57.33
9.90B7
27 26 10.9
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3
8 37 12.26
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6 54 13.45
9.9875
27 24 33.5
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4
8 39 17.93
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23 36 2.4
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5
6 56 29.43
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27 22 47.8
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5
8 41 23.32
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23 28 25.9
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6
6 58 45.27
9.96 JB
27 20 54.0
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6
8 43 28.45
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7 1 0.97
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27 18 52.0
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7
8 45 33.30
94)787
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8
7 3 16.51
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27 16 41.8
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8
8 47 37.88
9.0741
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9
7 5 31.91
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27 14 23.5
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8 49 42.19
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22 56 58.2
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7 7 47.15
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8 53 49.98
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8 55 53.47
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22 32 19.6
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7 14 31.87
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27 0 51.3
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8 59 59.62
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21 40 27.6
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7 30 9.99
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9 14 12.50
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• 26 32 21.6
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9 16 13.25
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23
7 36 49.09
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9.9190
IDAY
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9 18 13.74
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94)068
NDAY
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18
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18
9 55 32.95
1.9949
17 42 5.9
10.854
19
8 20 17.26
9.1899
24 39 45.5
6.600
19
9 57 28.28
1.9909
17 31 12.5
10.996
20
8 22 25.07
9.1978
24 33 6.8
6.703
20
9 59 23.37
1.9168
17 20 15.0
10J99
21
8 24 32.61
9.1984
24 26 21.4
6.819
21
10 1 18.23
1.9194
17 9 13.4
114)60
22
8 26 39.89
9.1190
24 19 29.4
6.990
22
10 3 12.85
1.9085
16 68 7.7
ii.m
23
8 28 46.90
9.1146
24 12 31.0
74)98
23
10 6 7.24
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16 46 58.1
11.196
24
8 30 53.64
9.1109
N.24 5 26.0
7.186
24
10 7 1.40
1.9008
N 16 35 44.6
ll.iJff
VI.
AUGUST, 1855.
119
GREENWICH MEAN TIME.
THE
MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Right Aflcension.
Diff
for Ira.
DecUnatkn.
Diff
forlm.
Hour.
Right AKenaioQ.
Diffl
for I m.
DacUnaUon.
Dim
fbrlm.
MOI
iDAY
13.
WEDNESDAY 15.
h. m. 0.
•.
1 O « N
«
h. m. •.
•.
O 1 If
N
0
10 7 1.40
i.»08 N 16 35 44.6
11.397
0
11 34 44.49
i.77ao
N. 6 36 7.4
13.438
1
10 8 55.33
13960
16 24 27.2
11.331
1
11 36 30.95
1.7787
6 22 41.2
18.449
2
10 10 49.03
1.8090
16 13 6.1
11.38ft
2
11 38 17.34
1.7736
6 9 13.5
13.47ft
3
10 12 42.50
1.8603
16 141.1
11.447
3
11 40 3.66
1.7713
5 55 44.2
18.600
4
10 14 35.75
1.8867
15 50 12.4
11.600
4
11 41 49.91
1.7708
5 42 13.6
18.ft9ft
5
10 16 28.79
1.8809
15 38 40.1
11.670
5
11 43 36.11
1.7604
52841.3
13.648
6
10 18 21.61
1.8786
15 27 4.1
11.630
6
11 45 22.25
1.7686
5 15 7.8
18.670
7
10 20 14.22
1.87fi0
15 15 24.5
11.680
7
11 47 8.34
1.7678
5 132.9
18.608
8
10 22 6.61
1.871ft
15 3 41.4
11.747
8
11 48 54.38
1.7670
4 47 56.7
18.614
9
10 23 58.80
1.8680
14 51 54.8
11.806
9
11 50 40.38
1.7663
4 34 19.3
18.684
10
10 25 50.78
1.861ft
14 40 4.8
11.863
10
11 62 26.34
1.7667
4 20 40.6
18.668
11
10 27 42.55
1.8613
14 28 11.4
11.917
11
11 54 12.26
1.7661
4 7 0.8
18.673
12
10 29 34.13
1.8&80
14 16 14.7
11.979
12
11 55 58.15
1.7M6
3 53 19.9
18.600
13
10 31 25.51
1.8648
14 4 14.8
13406
13
11 57 44.01
1.7641
3 39 37.9
18.708
14
10 33 16.71
1.8ftl6
13 52 11.6
13.078
14
11 59 29.86
1.7688
3 25 54.8
13.736
15
10 35 7.71
1.8484
13 40 5.3
19.180
15
12 1 15.68
1.7686
3 12 10.7
18.743
16
10 36 58.52
1.8463
13 27 55.9
13.183
16
12 3 1.49
1.7684
2 58 25.7
18.768
17
10 38 49.15
1.8433
13 15 43.4
13.333
17
12 4 47.28
1.7683
2 44 39.7
13.773
18
10 40 39.60
1.8383
13 3 27.8
13.963
18
12 6 33.07
1.7689
2 30 52.9
13.788
19
10 42 29.87
1.8363
12 51 9.3
13.338
19
12 8 18.86
1.7633
2 17 5.2
18.801
20
10 44 19.96
1.8383
12 38 47.8
13.883
20
12 10 4.65
1.7689
2 3 16.8
18.818
^l
10 46 9.88
1.830ft
12 26 23.5
13.430
21
12 11 50.44
1.7688
1 49 27.6
18.836
22
10 47 59.63
1.8377
12 13 56.3
13.477
22
12 13 36.24
1.768ft
1 35 37.7
13.837
23
10 40 49.22
1.8350
N.12 126.4
13.ft33
23
12 15 22.06
1.7688
N. 12147.2
18.848
TUE
SDAY
14.
THU
RSDA'
Y 16. '
0
10 51 38.64
1.8333
Nil 48 53.7
13.667
0
12 17 7.90
1.7619
N. 1 7 56.01 WW
1
10 53 27.90
1.8197
1136 18.3
13.613
1
12 18 53.76
1.7646
0 54 4.3 18.866
2
10 55 17.00
1.8173
1123 40.3
13.666
2
12 20 39.64
1.7660
0 40 12.1
18.874
3
10 57 6.95
1.8146
11 10 59.6
13.608
3
12 22 25.55
1.76ftft
0 26 19.4
18.889
4
10 58 54.75
1.8190
10 58 16.4
13.740
4
12 24 11.50
1.7661
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5
11 0 43.40
1.8006
10 45 30.7
13.783
6
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1.7668
s. 0 1 27.2
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6
11 2 31.90
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6
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7
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10 19 51 9
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7
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8
11 6 8.49
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10 6 59.0
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8
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9
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1.8005
9 54 3.7
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10
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1.7083
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12
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9 15 4.5
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13
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9 2 0.4
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15244.9
13.990
14
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8 48 54.2
13.130
14
12 41 53.86
1.7763
2 6 40.1
13.919
15
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1.7887
8 35 46.0
13.164
15
12 43 40.46
1.7777
2 20 35 2
13.918
16
11 20 29.84
1.7860
8 22 35.8
13.187
16
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1.7793
2 34 30.3
13.917
17
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1.7869
8 9 23.6
13.319
17
12 47 13.96
1.7807
2 48 25.2
13.916
18
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1.788ft
7 56 09.5
13.390
18
12 49 0.85
1.7833
3 2 20.0
13.919
19
11 25 51.02
1.7819
7 42 53 5
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19
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1.7811
3 16 14.6
13.907
20
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1.7803
7 29 35.8
13.310
20
12 52 34.94
1.7899
3 30 8.9
13.903
21
1129 24.66
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7 16 16.2
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21
12 64 22.14
1.78n
3 44 2.9
13.897
22
11 31 11.35
l.THft
7 2 54.9
13.360
22
12 66 9.46
1.7897
3 57 56.6
13.891
23
11 32 57.96
1.7769
6 49 32.0
13.397
23
12 67 56.90
1.7917
4 1149.9
13.883
=1^
11 34 44.40
1.7760
N. 6 36 7.4
13.433
24
12 59 44.46
1.7938
S. 4 25 42.7
18.87ft
120
AUGUST, 1855.
VII.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hoor.
Right Aacension.
Diff.
Air 1 m.
DecUnatlofL
DiflC
forlm.
Hour.
Right AKCDtiOQ.
Dtff.
forlm.
Dacllnatioa.
DiC !
forlm. 1
;
FRI
DAY
17.
SUNDAY
19.
h. m. •.
■.
0 1 M
N
h. m. a.
s.
0 f N
N
0
13 59 44.46
1.7938
s. 4 25 42.7
13.876
0
14 89 43.68
1.9861
s,15 7 1.4
19.491
1
13 1 33.15
1.7P60
4 39 35.0
18.887
1
14 31 41.96
1.9009
15 19 89 3
19.488
2
13 3 19.97
1.79H2
4 53 36.8
18.866
8
14 33 41.59
1.9908
15 3154.0
19.883
3
13 5 7.93
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5 7 18.0
18.848
3
14 35 41.58
94)099
15 44 15.4
12.398
4
13 6 56.03
1.80«
5 31 8.6
1S.8S7
4
14 37 41.94
9.0000
15 56 33.4
19.979
5
13 8 44.37
1.80A3
5 34 58.4
18.895
5
14 39 43.66
9.0189
16 8 48.0
19.914
6
13 10 32.66
1.8078
5 48 47.6
18.818
6
14 41 43.76
94)914
16 30 59.1
19.166
7
13 13 31.31
1.8104
6 3 36.0
18.800
7
14 43 45.33
9UW78
16 33 6.6
194)96
8
13 14 9.91
1.8113
6 16 33.6
18.787
8
14 45 47.09
9.0M9
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194)34
9
13 15 58.78
1.8160
6 30 10.4
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9
14 47 49.33
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10
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6 43 56.3
18.768
10
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11
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7 35 7.7
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14 56 8.83
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14
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7 38 49.3
18.085
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; 15
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17
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30
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8 19 48 54.3
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1
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9.1898
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10.791
1 3
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80 10 39.3
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11 135.7
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1.WU
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30
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80
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31
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33 42 31.7
8.448
VIII.
AUGUST, 1855.
121
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right Aaceiwion.
DiflU
fori m.
Declination.
Diif
Ibrlm.
Hour.
Right A«c«n«ion.
Diff.
forlm.
Declinatioo.
Diff
fbrlm.
TUE
3DAY
21.
THURSDAY 23.
h. m. •.
a.
0 1 if
u
h. m. •.
t.
O 1 It
u
0
16 12 54.73
9.S»I1
$234231.7
8.446
0
18 13 37.70
9.6690
S.27 39 52.9
0470
1
16 15 15.02
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23 50 54.9
8439
1
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94899
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0479
2
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8.«W
2
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94733
27 41 14.3
0.487
3
16 19 57.07
34985
24 7 19.1
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3
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4
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4
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5
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5
18 27 0.27
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7
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7.363
7
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8
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8
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9
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7.997
9
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9.40-26
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16
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18
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22
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22
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23
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WED!
^ESD/
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IDAY
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0
17 11 14.17
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1
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5
17 23 56.25
94975
26 50 17.1
4.976
5
19 32 2.05
9.7170
26 42 25.7
4478
6
17 96 29.91
94643
26 54 28.7
4.108
6
19 34 45.05
9.7161
26 37 27.0
9478
7
17 29 3.97
94710
26 58 30.2
3438
7
19 37 27.99
9.7150
26 32 16.3
9.9n
8
17 31 38.43
94779
27 2 21.4
8.708
8
19 40 10.86
9.7137
26 26 53.7
9476
9
17 34 13.28
94640
27 6 2.4
3406
9
19 42 53.65
9.7193
26 21 19.2
9474
10
17 36 48.52
94003
27 9 33.0
3493
10
19 45 36.35
9.7108
26 15 32.8
9479
11
17 39 24.13
94969
27 12 53.2
3.918
11
19 48 18.95
9.7091
26 9 34.6
6470
12
17 42 0.11
94096
27 16 2.9
3473
12
19 51 1.44
9.7079
26 3 24.5
6.907
13
17 44 36.45
94089
27 19 2.0
9496
13
19 53 43.81
9.7051
25 57 2.6
6469
14
17 47 13.14
94143
27 21 50.5
9.718
14
19 56 26.04
9.7098
25 50 29.1
64ff7
15
17 49 50.17
94900
27 24 28.2
9438
15
19 59 8.14
9.7003
25 43 43.8
6469
16
17 52 27.54
94999
27 26 55.1
9497
16
20 1 50.09
94978
25 36 46.9
7.049
17
17 55 5.24
94300
27 29 11.1
9.176
17
20 4 31.88
94959
25 29 38.4
7.997
18
17 57 43.27
94S63
27 31 16.2
1.999
18
20 7 13.51
949«
25 22 18.4
7498
19
18 0 21.61
9.6419
27 33 10.3
1409
19
20 9 54.96
94899
25 14 46.9
7416
20
18 3 0.25
94469
27 34 53.3
1498
20
20 12 36.22
94960
25 7 4.1
7.806
21
18 5 39.19
94913
27 36 25.1
1487
21
20 15 17.29
9.6897
24 59 9.9
7497
22
18 8 18.42
94660
27 37 45.7
1.949
22
20 17 58.16
94793
24 51 4.4
6.184
23
18 10 57.92
94006
27 38 55.0
1400
23
20 20 38.81
94756
24 42 47.7
8470
24
18 13 37.70
94690
S.27 39 52.9
0470
24
20 23 19.25
9479J
24 34 19.9
8.999
16
122
AUGUST, 1855.
IX.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Kight Ascension.
PiflT.
for 1 in.
Declination.
Diflr.
fori m
Hour.
Right AacaiMion.
Diflr.
forlm.
Declination.
Diff. ;
fori m.
t
SATURDAY 25.
MONDAY
27.
h. m. ■.
•
O 1 u
II
h. m. t.
■•
O 1 M
1
0
20 23 19.25
♦i^M
S24 34 19.9
6.666
0
22 25 42.81
2.4119
S.14 41 8.3
16.416 1
1
20 25 59.47
3U)683
24 25 41.0
8.789
1
22 28 7.36
94002
14 26 40.6
16.608
2
20 28 39.45
2.6643
24 16 51.2
8.922
2
22 30 31.56
9.4006
14 10 7.3
16.607
3
20 31 19.19
2.6603
24 7 50.4
9.103
3
22 32 65.42
%jaN8
13 54 28.8
16.085
4
20 33 58.69
2.6561
23 58 38.8
9.282
4
22 36 18.94
9.8892
13 38 46.1
16.770
5
20 36 37.93
2.6516
23 49 16.5
0.461
6
22 37 42.12
9.8837
13 22 66.4
16.868
6
20 39 16.91
2.6474
23 39 43.4
9.639
. 6
22 40 4.97
2J782
13 7 2.7
16384
7
20 41 55.62
2.6429
23 29 59.7
9.815
7
22 42 27.49
2J727
12 51 4.2
16U)I9
8
20 44 34.06
2.6883
23 20 5.6
9.989
8
22 44 49.68
2.8672
12 35 1.9
I6jm
9
20 47 12.22
2.6336
23 10 1.0
10.162
9
22 47 11.54
2.8617
12 18 63.6
16.188
10
20 49 50.09
2.6287
22 59 46.1
10438
10
22 49 33.08
2.8668
12 2 41.6
16386
11
20 52 27.67
2.6238
22 49 21.0
10.602
11
22 51 54.30
2.8610
1146 26.4
16306
12
20 55 4.95
2.6168
22 38 45.7
10.670
12
22 54 15.20
2.8456
1130 6.0
16378
13
20 57 41.93
2.6137
22 28 0.5
10.887
13
22 56 35.79
2.8406
11 13 40.6
16.488
14
21 0 18.60
2.ar88
22 17 6.4
11.002
14
22 58 56.07
2.8854
10 67 12.5
16.500
15
21 2 54.97
2Jd€&b
22 6 0.4
11.166
16
23 1 16.04
2.3804
10 40 40.6
16.669
16
21 5 31.02
2.9082
91 54 45.7
11.836
16
23 3 35.71
2.S965
10 24 6.1
16390
17
21 8 06.75
2.6026
2143 21.5
11.488
17
23 6 65.09
2.S905
10 7 96.2
16376
18
21 10 42.16
2.5873
21 31 47.7
11.640
18
23 8 14.17
2.3167
9 50 44.0
16.798
19
21 13 17.24
2.5616
2120 4.6
11.796
19
23 10 32.96
2.8107
9 33 58.7
16.780
20
21 15 51.99
24i:6i
21 8 12.2
11.949
20
23 12 51.46
2.8050
9 17 10.4
16380
21
21 18 26.40
2.6707
20 56 10.6
12.101
21
23 16 9.68
2.8012
9 0 19.1
16377
22
21 21 0.48
2JS650
20 44 0.0
12.260
22
23 17 27.61
93966
8 43 26.1
163»
23
21 23 34.21
SUl
2.6608
WAY
S.20 31 40.5
26.
12J98
23
23 19 45.27
TUE
9JW90
:SDATI
S. 8 96 98.6
' 28.
16306
0
21 26 7.60
2.6686
S.20 19 12.1
12.644
0
23 22 2.66
9.9876
S. 8 9 99.3
17306
1
21 28 40.64
2.M78
20 6 35.0
12.688
1
23 24 19.78
9.9B80
7 69 97.7
I73I6
2
21 31 13.34
2.6420
19 53 49.4
12.881
2
23 96 36.63
9.2786
7 35 94.0
17361
3
21 33 45.69
2.6362
19 40 55.2
12.972
3
23 28 63.23
9.2748
7 18 18.1
n.ll6
4
21 36 17.69
2.6304
19 27 52.7
18.110
4
23 31 9.67
9.9709
7 1 10.9
n.l47
5
21 38 49.34
2.5246
19 14 42.0
18.246
6
23 33 26.66
9.9602
6 44 0.6
17.176 !
6
21 41 20.63
2.6186
19 123.2
18.879
6
23 35 41.61
9.9099
6 96 49.1
17.200
7
21 43 51.56
2.6127
18 47 56.4
13.610
7
23 37 67.12
9.9899
6 9 36.1
n.99B
8
21 46 22.14
2.5007
18 34 21.9
13.«40
8
23 40 12.49
9.9049
6 69 91.6
17.269
9
21 48 52.36
2.5007
18 20 39.Q
13.768
9
23 42 97.63
93608
6 36 6.8
17318 ,
10
21 51 22.22
2.4948
18 6 49.7
13.603
10
23 44 42.64
9.9406
6 17 48.7
n.2g8 1
11
21 53 51.73
2.4888
17 52 52.5
14.016
11
23 46 67.24
9.9480
6 0 30.6
17310
12
21 56 20.88
2.4828
17 38 47.8
14.187
12
23 49 11.71
9.9804
4 43 11.6
n.89S
13
21 58 49.67
2.4768
17 24 35.9
14.266
13
23 61 25.97
9.9860
4 96 61.6
17340
1 ^4
22 1 18.09
2.4708
17 10 17.1
14.373
14
23 53 40.02
9.9836
4 8 30.7
173*9
15
22 3 46.16
16 55 51.2
14U88
16
23 56 63.87
9.9999
3 61 9.3
17361
1 16
22 6 13.87
2.4668
16 41 18.5
14.600
16
23 68 7.62
93960
3 33 47.4
n308
i 17
22 8 41.22
2.4529
16 26 39.2
14.710
17
0 0 20.98
9.9937
3 16 96.1
17378
i *Q
22 11 8.22
2.4470
16 1153.3
14.816
18
0 9 34.25
9.9107
9 69 9.6
17377 !
19
22 13 34.86
2.4411
15 57 1.0
144»23
19
0 4 47.34
9.9167
9 4139.9
17370
20
22 16 1.15
2.4362
15 42 2.4
164)27
20
0 7 0.26
9.9187
9 94 17.9
17378 .
21
22 18 27.09
2.4293
15 26 67.7
16.128
21
0 9 12.99
9.9108
9 6 64.4
n37» j
22
22 20 52.68
24235
15 1147.0
16.226
22
0 11 96.56
9.9080
1 49 31.9
17379 !
23
22 23 17.92
2.4177
14 66 30.5
16.8U
23
0 13 37.96
93068
1 39 9.8
17306 '
24
22 25 42.81
2.4119
S14 41 8.3
16.416
24
0 16 60.21
9.9038
S. 1 14 48.1
17356
X.
AUGUST, 1855.
123
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
RifhtAwMMion.
Dis:
fori m.
DedinaUofi.
DifT.
for 1 m.
Hour.
Right AMenaioo.
DIff.
forlm.
DecUnatkm.
Diff:
for 1 ID
WEDNESDAY 29.
FRIDAY
31.
h. m. 8.
•• O 1 M
M
h. m. «.
«.
O 1 N
M
0
0 15 50.21
a.«« & 1 14 48.1
17.888
0
2 0 4.73
3.1090
Nil 56 23.8
16U)17
I
0 18 2.30
3.3008 0 57 26.9
17.347
1
2 2 14.90
2.1700
12 1122.3
I4.9S3
2
0 20 14.25
3.1979 0 40 6.5
17.336
2
2 4 25.13
2.1710
12 26 15.7
14348
3
0 22 26.05
9.i«i6 0 22 46.7
17.831
3
2 6 35.42
3. 1731
12 41 4.0
14.703
4
0 24 37.71
3.I9W s. 0 5 27.8
17.805
4
2 8 45.78
2.1788
12 55 47.1
14.674
5
0 26 49.24
9.I910
N. 0 1150.0
17.387
5
2 10 56.21
2.1745
13 10 24.8
14.586
6
0 29 0.63
S.1SB0
0 29 6.7
17.368
6
2 13 6.71
2.1767
13 24 57.2
14.405
7
0 31 11.90
2.1970
0 46 22.2
17.348
7
2 15 17.29
3.1770
13 39 24.2
14-404
8
0 33 23.06
9.1800
1 3 36.4
17.326
8
2 17 27.94
3.1783
13 53 45.7
14.313
9
0 35 34.10
3.18SI
1 20 49.2
17.303
9
2 19 38.68
3.1797
14 8 17
14.318
10
0 37 45.04
0.1813
1 38 0.5
17.176
10
2 21 49.50
3.1813
14 22 12.0
14.138
11
0 39 55.87
a.l7W
1 55 10.1
17.147
11
2 24 0.42
3.1837
14 36 16.6
14.048 ,
12
0 42 6.59
a.lT78
2 12 18.1
17.117
12
2 26 11.42
3.IS43
14 50 15.5 MMi
13
0 44 17.22
9.176S
2 29 24.2
17.086
13
2 28 22.51
9.1857
15 4 8.5 18J86
14
0 46 27.76
ii.1748
2 46 28.4
17.063
14
2 30 33.70
3.1873
15 17 55.6 18.787
15
0 48 38.21
3.1786
3 3 30.6
17.019
15
2 32 44.99
3.1890
15 31 36.8| 18.687
16
0 50 48.58
S.I733
3 20 30.7
16.983
16
2 34 56.38
3.1907
15 45 12.0| 18.686
17
0 52 58.87
3.1710
3 37 28.4
16.943
17
2 37 7.87
3.1996
15 5841.0' 18.488
18
0 55 9.09
2.1698
3 54 23.9
16J08
18
2 39 19.47
3.1048
16 12 4.0 18.881
19
0 57 19.25
3.1087
4 11 16.9
16.869
19
2 41 31.18
3.1960
16 25 20.8! 18.337
20
0 59 29.34
3.1077
4 28 7.4
16.818
20
2 43 42.99
3.1978
16 38 31.2 I3.1i2 >
21
1 1 39.38
3.1008
4 44 55.2
16.773
21
2 45 54.92
3.1997
16 51 35.4 13.016
22
1 3 49.36
3.1600
5 140.3
16.7i7
22
2 48 6.96
9.9017
17 4 33.2, 13.909
23
1 5 59.30
9.1603
N. 5 18 22.5
16.679
23
2 50 19.12
9.9087
N 17 17 24.5 13.809
THUl
[ISDAY 30.
SATURD
AY, S
$EPT. 1.
0
1
2
1 8 9.19
1 10 19.05
1 12 28.87
9.1040
9.1040
9.10S6
N. 5 35 1.9
5 51 38.2
6 8 11.5
16.680
16.660
0
2 52 31.40
1 9.3067
N.17 30 9.4 i 13.008
16.638
3
1 14 38.66
9.I0S1
6 24 41.6
16.476
4
1 16 48.42
9.1037
6 41 8.4
16.419
5
1 18 58.17
9.103S
6 57 31.8
16.863
6
7
1 21 7.89
1 23 17.60
9.1019
9.ion
7 13 51.8
7 30 8.2
16J08
10.948
PHASES (
)F Tl
HE MOON.
8
9
1 25 27.30
1 27 37.00
9.1017
9.1017
7 46 21.0
8 2 30.1
10.189
10.119
10
1 29 46.70
9.1017
8 18 35.4
10.006
Day. h. m.
11
1 31 56.40
9.1018
8 34 36.8
16.900
C Last Quart
ter, .
. 4 9 22.0
12
1 34 6.11
9.1030
8 50 34.2
16.938
0 New Mooi
i» •
. 12 6 51.4
13
1 36 15.83
9.1033
9 6 27.6
16366
^ First Quai
•ter,
. 20 8 35.7
14
1 38 25.58
3.1035
9 22 16.8
16.786
O Full Moon
» •
. 27 1 22.4
15
16
1 40 35.34
1 42 45.13
3.1099
9.108S
9 38 1.8
9 53 42.5
16.714
16.043
17
1 44 54.94
9.1088
10 9 18.8
16.608
Day. h.
18
1 47 4.79
9.1648
10 24 50.7
16.498
<C Apogee,
,
. . 13 5.1
19
1 49 14.67
9.1600
10 40 18.0
16.417
<C Perigee,
. .
. . 26 22.3
20
1 51 24.59
9.1047
10 55 40.7
16.889
21
1 53 34.55
9.1006
11 10 58.7
16.300
22
1 55 44.56
3.1678
1126 11.9
16.180
23
1 57 54.62
3.1681
11 41 20.3
16.090
24
8 0 4.73
9.1090
Nil 56 23.8
160117
124
AUGUST, 1855.
XI.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1.
Sur'tNuM
P L.
P.L.
P.L.
P.L.
and
Noon.
of
nih.
of
VIb.
of
IXK
of
Position.
Diir.
Diir.
Diir
Ditt.
O 1 11
O 1 N
O 1 N
O 1 «
1
Fomalhaut W.
28 0 40
S047
20 38 55
9000
31 0 47
9900
32 42 2
91M3
Jupiter W.
24 21 40
9141
26 1145
91fi0
28 128
9180
20 50 58
9169
a Arietis E.
43 12 45
!»85
41 26 23
9310
30 40 38
9337
37 55 37
3366
Aldebaran E.
73 7 20
am
71 18 27
9199
60 20 47
9907
67 41 30
3333
Saturn E.
01 14 1
S17S
80 25 1
9199
87 36 22
9906
85 48 4
3330
Mars E.
105 45 33
3S41
104 0 33
98A6
102 15 54
9868
100 31 34
3384
Sun E.
134 6 30
94»
132 24 13
9468
130 42 15
9489
120 0 36
9496
3
Fomalhaut W.
40 37 54
9080
42 14 48
96n
43 51 50
9066
45 20 24
9600
Jupiter W.
38 54 7
9333
40 41 46
9947
42 20 4
9961
44 16 1
9376
Aldebaran E.
58 46 0
9307
57 0 10
9334
55 14 46
9343
53 20 40
3369
Saturn E.
76 52 0
9»7
75 5 56
9313
73 20 16
9330
71 35 0
9346
Mars E.
01 55 27
9403
00 13 21
9479
88 31 38
9400
86 50 10
9»t3
Sun E.
120 37 28
9079
118 57 54
9868
117 18 43
9004
115 30 54
9031
3
aAquila W.
84 46 2
M»
86 11 56
3990
87 37 34
3341
89 2 55
3917
Fomalhaut W.
53 37 51
9066
55 15 30
9663
56 53 0
9073
58 30 18
9679
Jupiter W.
53 5 10' »a|
54 40 52
9369
56 34 11
9380
58 18 6
9109
Aldebaran E.
44 52 13
9465
43 10 11
9468
41 28 41
9611
30 47 43
9636
Saturn E.
62 54 42
9tt9
61 11 53
9449
50 20 28
9167
57 47 28
9484
Mars E.
78 20 42
9800
76 50 47
9017
75 12 15
9636
73 34 8
9663
Sun E.
107 31 36
9707
105 55 6
9736
104 10 0
9743
102 43 17
9760
4
Jupiter W.
66 52 2
3480
68 33 43
9400
70 15 2
9613
71 55 59
9107
Fomalhaut W.
66 33 47
979ft
68 0 53
9736
60 45 45
9747
71 21 22
9760
a Pegasi W.
48 22 31
3188
40 48 55
3170
51 15 40
3166
52 42 42
3146
Aldebaran E.
31 31 32
9009
20 54 1
9686
28 17 5
9716
26 40 47
9746
Saturn E.
40 23 34
9879
47 44 1
9800
46 4 52
9607
44 26 7
9093
Mars E.
65 20 22
9740
63 53 35
9736
62 18 10
9778
60 43 7
9790
Sun E.
04 50 27
9B48
03 17 1
9806
01 43 58
9883
90 11 16
98B0
5
Jupiter W.
80 15 28
9001
81 54 22
961A
83 32 56
9830
85 11 10
90tt
FfHnalhaut W.
70 15 34
9031
80 40 35
9H63
82 23 20
9R46
83 56 48
9861
a Pegasi W.
60 0 20
3190
61 28 5
3110
62 55 51
3190
64 23 36
3199
Saturn E.
36 18 25
3716
34 42 6
9736
33 6 12
9763
31 30 43
tn3
Mars E.
52 53 22
9978
51 20 28
9880
40 47 55
9906
48 15 42
9090
Sun E.
82 33 6
9081
81 2 30
9007
70 32 13
3013
78 2 15
3038
6
Jupiter W.
03 17 50
9710
04 54 17
9739
06 30 28
973A
08 622
9746
Fomalhaut W.
01 30 46
9096
03 1132
909
94 43 2
9069
06 14 15
9906
1
a Pegasi W.
71 41 30
3130
73 0 1
3160
74 36 10
3180
76 3 8
3168
a Arietis W.
28 550
3000
20 35 1
3(«7
31 4 30
3036
32 34 12
3014
Mars E.
40 30 32
9B07
30 0 15
3011
37 30 16
3ajo
36 0 36
3041
Sun E.
70 37 0
3101
60 0 1
3116
67 41 11
3199
66 13 37
3143
7
Jupiter W.
a Arietis W.
106 2 6
9809
107 36 31
9813
100 10 43
9833
110 44 42
9001
40 4 44
9BB0
41 34 50
3001
43 5 14
3001
44 35 26
0009
Mars E.
28 45 50
3IIA
27 17 50
3139
25 50 28
3148
24 23 17
3100
Sun E.
58 50 44
3906
57 33 42
3319
50 7 65
a930
54 42 91
ton
8
a Arietis W.
52 5 35- aoiB
53 35 24
3093
55 5 8
3037
56 34 47
3009
Aldebaran W.
22 4 47 no?
23 30 48
3103
24 57 18
3109
26 24 13 3146
^_
Sun E.
47 37 5ll SM
46 13 35
ucn
44 49 32) nn]
43 25 40 3097
XII.
AUGUST, 1855.
125
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
5 .
Star's Name
P. L.
P. L
P. L.
P. L.
t|
and
Midnight.
of
XVh.
of
XVlUh.
of
XXP».
of
o
PoeiUoa.
DiflC
Diir.
Diff.
DIff.
O 1 «
O 1 M
O 1 II
O 1 w
1
Fomalhaut W.
34 15 34
37M
35 50 9
9768
37 25 26
9731
39 125
9708
Jupiter W.
31 40 12
9180
33 29 9
9199
35 17 48
9906
37 6 8
9919
a Arietis E.
36 11 9
SMS
34 27 31
9433
32 44 44
9n9
31 2 52
9616
Aldebaran E.
65 53 36
9388
64 6 5
9964
62 18 58
9971
60 32 16
9369
Saturn E.
84 0 7
9986
82 12 31
9950
80 25 18
9966
78 38 27
9981
Mars E.
98 47 37
9800
97 4 1
9416
95 20 48
9430
93 37 56
9446
Sun E.
137 19 17
9»I0
125 38 18
9696
123 57 40
9640
122 17 23
9666
3
Fomalhaut W.
47 6 57
96A5
48 44 37
9669
50 22 21
9661
52 0 7
9069
Jupiter W.
46 2 36
9991
47 48 48
9807
49 34 38
989a
51 20 5
9837
Aldebaran E.
51 45 20
9883
50 1 19
9409
48 17 47
9494
46 34 45
9444
Saturn E.
69 50 8
9868
68 5 40
9880
66 21 36
9897
64 37 57
9414
Mars E.
85 924
9530
83 28 52
9648
81 48 45
9565
80 9 2
9589
Sun E.
114 128
9S88
112 23 25
9656
110 45 45
9673
109 8 29
9600
3
aAquila W.
90 27 57
t374
9152 39
8909
93 17 0
3811
94 40 59
3889
Fomalhaut W.
60 726
9080
61 44 20
9700
63 21 0
9709
64 57 28
9716
Jupiter W.
60 1 38
9417
61 44 48
9488
63 27 35
9450
65 9 59
9466
Aldebaran E.
38 720
9501
36 27 32
9566
34 48 18
9611
33 9 38
9686
Saturn E.
56 5 52
9509
54 24 41
9619
52 43 54
9637
51 3 32
9664
Mars E.
7156 24
9800
70 19 3
9687
68 42 6
9706
67 5 33
9799
Sun E.
101 7 57
*n8
9933 0
^796
97 58 26
9813
96 24 15
9881
4
Jupiter W.
73 36 34
%W
75 16 48
9657
76 56 42
9579
78 36 15
9887
Fomalhaut W.
72 56 44
91T7
74 31 50
9789
76 6 41
9796
77 41 16
9608
a Pegasi W.
Aldebaran E.
54 9 57
8186
55 37 23
3199
57 4 57
8194
58 32 37
3199
25 5 7
9ni
23 30 9
9898
21 56 1
9867
20 23 10
9011
Saturn E.
42 47 46
9643
41 9 49
9061
39 32 17
9979
37 55 9
9697
Mars E.
59 8 26
9808
57 34 8
9894
56 0 11
9811
54 26 36
9867
Sun E.
88 38 56
9016
87 6 57
9933
85 35 20
9919
84 4 3
9966
5
Jupiter W.
86 49 6
9657
88 26 44
9670
90 4 4
9084
91 41 5
9006
Fomalhaut W.
85 29 57
9874
87 2 49
9887
88 35 25
9900
90 7 44
9913
a Pegasi W.
65 51 19
8194
67 19 0
3197
68 46 37
8129
70 14 10
3133
Saturn E.
29 55 40
97»1
28 21 4
9816
26 46 55
9837
25 13 15
9869
Mars E.
46 43 49
9886
45 12 16
•J951
43 41 2
9967
42 10 8
9981
Sun E.
76 32 37
8048
75 3 18
8056
73 34 17
3073
72 5 34
3087
G
Jupiter W.
99 42 1
9758
101 17 24
9769
102 52 33
9780
104 27 27
9799
Fomalhaut W.
97 45 11
9978
99 15 51
9901
100 46 15
8006
102 16 22
3018
a Pegasi W.
77 29 55
8176
78 56 33
3180
80 23 6
3186
81 49 32
3199
a Arietis W.
34 4 5
8007
35 34 8
8004
37 4 17
3000
38 34 30
9999
Mars E.
34 40 14
8056
33 U 10
3071
31 42 25
3087
30 13 59
3101
Sun E.
64 46 19
3166
63 19 17
8169
61 52 31
8189
60 26 0
8194
7
Jupiter W.
a Arietis W.
112 18 29
9849
113 52 3
9861
115 25 25
9860
116 58 35
9869
46 5 35
3006
47 35 41
8009
49 5 43
3019
50 35 41
8016
Mars E.
22 56 26
3188
2129 57
8903
20 3 51
3926
18 38 11
3148
Sun E.
53 17 1
8958
51 51 54
8964
50 27 0
3976
49 2 19
3986
8
a Arietis W.
58 4 20
8086
59 33 48
3040
61 3 11
9044
62 32 29
8049
Aldebaran W.
27 5127
3183
20 18 57
3194
30 46 38
811/1
32 14 29
3100
Sun E.
42 2 0
8337
40 38 31
3347
39 15 14
3358
37 52 9
3367
126
AUGUST, 1855.
XIII.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1^
Star's Nama
P. L.
P.U
P. u
P. L.
«l
aiid
Noon.
of
mh.
of
Vlh.
of
IXh.
of
1!
PcMitioa
Dur.
Diff.
DifT.
Diff.
0 1 M
0 1 M
0 1 M
0 1 H
9
a Arietis
W.
64 141
SOU
65 30 48
8068
66 59 49
8009
68 38 45
80M
Aldebaran
W.
33 43 28
S106
35 10 33
8101
36 38 40
8099
38 6 51
80M
Sun
E.
36 29 15
8378
35 6 33
8887
33 44 9
8898
33 21 43
8407
15
Sun
W.
29 44 17
8489
31 4 53
8489
32 25 37
8474
33 46 30
84M
Spica
E.
30 43 56
8088
30 15 32
8087
27 47 8
8088
36 18 43
SODO
1
Anures
E.
76 31 7
8M1
75 3 10
8069
73 33 10
80M
73 4 6
8069
16
Sun
W.
40 33 3
8480
41 54 45
8498
43 16 36
8410
44 38 36
8407
AoUres
E.
64 37 32
8080
63 7 57
8090
61 38 16
8090
60 838
8014
17
Sun
W.
51 30 56
88M
53 53 53
88M
54 17 1
8846
65 40 30
8SM
ADtares
E.
59 37 34
9081
51 6 58
9978
49 36 12
90M
48 6 16
99M
18
Sun
W.
63 39 53
S189
64 4 36
8970
65 29 13
89M
66 64 14
8946
Venus
W.
90 54 5d
8811
33 18 54
8901
93 43 28
89M
36 8 36
89M
Antares
E.
40 28 1
M19
38 55 57
9009
37 23 41
9899
36 51 13
9ni
19
Sun
W.
74 3 8
8178
75 39 43
8108
76 56 36
8148
78 33 47
8U8
Venui
W.
33 21 20
8110
33 49 10
8090
35 17 24
8076
36 46 4
80M
Spica
W.
18 12 6
9886
19 44 44
9008
21 17 60
9849
23 51 34
9818
A II tares
E.
28 5 16
98M
36 3181
9018
24 57 10
9001
33 33 44
91M
Jupiter
E.
107 55 31
am
106 20 33
97S4
104 45 18
9761
103 9 46
9787
30
Sun
W.
85 44 23
8068
87 13 30
8087
88 42 67
8019
90 13 46
8001
Venus
W.
44 15 17
9M1
45 46 19
9SI0
47 17 47
9SJ0
48 49 40
9901
Spica
W.
30 45 57
97M
3322 2
9709
33 68 30
SOM
36 36 91
9K78
a Aquiltt
E.
70 57 03
86M
69 39 40
8071
68 23 33
son
67 5 11
SOM
Jupiter
E.
96 7 21
8004
93 39 53
9048
9169 3
9M8
90 13 63
MM
21
Sun
W.
97 47 24
9911
99 19 29
9899
100 61 68
9078
109 34 62
9064
Venus
W.
56 35 17
9803
58 9 43
9789
59 44 34
9709
61 19 52
9741
Spica
W.
43 45 47
9688
45 35 5
9604
47 4 50
ua
48 46 3
96M
a Aquila
E.
60 42 21
8700
59 26 43
8790
68 11 30
M19
66 66 47
SMI
Jupiter
E.
8157 26
9688
80 16 59
MM
78 30 8
SIM
76 64 53
9681
FomaJUaat E. |
85 34 21
9769
83 58 50
9787
89 99 69
S799
80 46 48
9100
aPegasi
E.
105 46 46
9064
104 15 36
9ni
109 43 66
101 11 47
SMI
99
Smf
W.
110 15 30
S768
HI 60 53
fTas
113 96 41
9719
116 9 65
9700
VeoQs
W.
69 23 4
9040
71 1 4
9091
79 39 31
96M
74 18 97
Spica
W.
57 12 13
S4M
58 54 58
S4U
60 38 11
90M
69 21 51
SMO
Jupiter
Fomalhaa
E.
68 29 27
SM9
66 38 41
9814
64 54 99
S807
63 9 53
9840
lE.
73 40 37
9097
71 2 9
MI6
69 98 34
S009
67 44 43
SMO
aPegasi
£.
93 34 11
flS8
91 49 21
97S4
90 14 06
9740
88 38 37
97M
93
Suv
W.
133 10 35' mn
124 49 11
9689
136 38 81
9079
128 7 65
SIM
Venus
W.
89 39 51; MM
84 91 30
SIM
86 3 36
9444
87 46 7
S4M
Spica
W.
71 6 36 s«s
72 59 52
9f]D
74 39 36. 99M
76 96 44
SSM
Antares
W.
35 19 33 «n
96 58 33' 9174
38 45 11, 99M
30 33 16
SS87
Jupiter
E.
54 30 39 SMS
523320 9»7
50 45 47 S9M
48 57 49
SMI
Fomalhaat E.
5996 7 SIN
57 45 38 M9I
66 4 55 Ml*
64 24 9 960T !l
L
a Pegasi
£.
80 34 38 SMI
78 66 59 SMO
t
77 18 49 SOM
1
75 40 30
1
XIV.
AUGUST, 1855.
127
GREENWICH MEAN
TIME.
LVNAB DISTANCES.
1^
Star's Name
P. L
PL.
P. L.
PL.
= 1
and
Midnight.
of
XVh.
of
xvinh.
of
XXIh.
of
9
PtMitioa
Diff
Diff.
Diir.
8081
Diir.
a Arietis
W.
O 1 II
69 57 36
ao7i
O 1 II
71 26 21
8076
O 1 K
72 55 0
O 1 u
74 S3 33
8086
Aldebaran
W.
39 35 3
aoM
41 3 17
8096
42 31 31
8096
43 59 46
8096
Sun
E.
30 59 36
M19
29 37 41
8481
28 16 0
8448
26 54 32
8456
15
Sun
W.
35 7 32
SMO
36 28 42
8459
37 50 0
8444
39 11 27
8437
Spica
E.
24 50 18
aoee
23 21 54
8088
21 53 29
8088
20 25 5
8069
Antares
E.
70 34 57
8048
60 5 44
8048
67 36 26
8040
66 7 2
8034
16
Sun
W.
46 0 45
8»e
47 23 3
8890
48 45 31
8381
50 8 9
8878
Antares
E.
58 38 33
M08
57 8 30
8001
55 38 19
9996
54 8 1
9989
17
Sun
W.
57 3 50
3S96
58 27 32
8814
59 51 27
8804
61 15 34
8994
Aiitares
E.
46 34 11
9BM
45 256
9941
43 31 29
9989
41 59 51
9998
18
Sun
W.
68 19 30
9m
69 45 1
8990
71 10 47
8907
72 36 49
8199
Venoa
W.
26 34 14
9»2
28 0 21
8180
29 26 54
8168
30 53 54
3136
Antaros
E.
34 18 29
9670
32 45 32
9859
31 12 21
9848
29 38 56
9887
19
Sun
W.
79 51 16
3119
81 19 3
8M9
82 47 10
8087
84 15 36
8069
Venus
W.
38 15 7
3087
39 44 34
8018
41 14 24
9999
42 44 38
9979
Spica
W.
24 25 28
arw
26 0 0
9779
27 34 56
9761
29 10 15
9744
Antarea
E.
21 48 3
imo
20 13 7
9766
18 37 54
9759
17 2 23 a7»
Jupiter
E.
101 33 55
9738
99 57 46
97U9
98 21 18
9694
96 44 30' «I8
20
Sun
W.
91 42 57
9980
93 13 29
9966
94 44 24
9948
96 15 42
9999
Venus
W.
50 2157
9883
51 54 39
9809
53 27 46
9843
55 1 IB
9819
Spica
W.
37 12 37
9699
38 50 20
9686
40 28 27
9690
42 6 55
9609
a Aquiltt
E.
65 48 9
8090
64 31 18
8710
63 14 42
8796
61 58 22
8744
Jupiter
E.
88 35 20
9001
86 56 26
9584
85 17 9
9567
83 37 29
9551
21
Sun
W.
103 58 10
9830
105 31 53
9816
107 6 0
9797
108 40 32
9777
Venus
W.
62 55 37
9199
64 31 48
9701
66 826
9681
67 45 31
9060
Spica
W.
50 25 40
9511
52 6 38
9499
53 48 3
9479
55 29 55
9454
a Aquile
K.
55 42 37
8889
54 29 6
8989
53 16 19
8980
52 4 20
4084
Jupiter
E.
75 13 13
9164
73 31 9
9446
71 48 40
9499
70 5 47
9410
FomalhautE. |
79 10 15
9669
77 33 21
9678
75 56 5
9656
74 18 26
9641
aPegasi
E.
99 39 10
986ft
98 6 6
9848
96 32 34
9899
94 58 35
9808
32
Sun
W.
116 39 35
9699
118 16 39
9668
119 54 9
9644
121 32 4
9695
Venus
W.
75 57 49
9561
77 37 38
9540
79 17 55
9590
80 58 40
9509
Spica
W.
64 5 55
9809
65 50 25
9343
67 35 22
9891
69 20 46
9307
Jupiter
E.
61 24 52
939i
59 39 24
9804
57 53 31
9987
56 7 13
9970
Fomalhaut E. |
66 5 33
9677
64 26 6
9565
62 46 23
9559
61 6 22
9549
a Pegasi
E.
87 2 24
97U
85 25 59
9606
83 49 12
9680
82 12 5
9665
S3
Sun
W.
129 47 53
9538
131 28 14
9591
133 8 58
9606
134 50 4
9480
Venus
W.
89 29 5
9108
91 12 29
9390
92 56 18
9878
94 40 32
9356
Spica
W.
78 14 17
9919
80 2 16
9908
81 50 39
9186
83 39 27
9171
Antares
W.
32 19 48
99^»
34 7 46
9903
35 56 9
9186
37 44 58
9170
Jupiter
E.
47 9 28
9188
45 20 43
9178
43 31 35
9156
41 42 4
9148
Fcimalhaut E. |
53 43 3
9510
51 2 4
9590
49 21 14
9597
47 40 38
9586
a Pegasi
E.
74 156
9805
72 33 8
9506
70 44 7 95881
60 4 56 9568
128
AUGUST, 1855.
XV.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
17
Sur^c NaoM
P. L
P. L.
P. L.
P. L.
'V
•nd
Noon.
of
IIP*.
of
Vlh.
of
IXh.
of
PwitioiL
Diir.
9SS9
Diir.
Ditt.
Dim
24
Venus
W.
0 1 II
96 25 10
0 1 If
98 10 13
3894
0 1 u
99 55 38
9806
0 1 ■
101 41 96
9»4
Spica
W.
85 28 38
sia5
87 18 13
9141
89 8 10
9196
90 58 29
3111
1
Anures
w.
39 34 11
91A4
4123 48
9190
43 13 48
3138
45 4 12
9100
Jupiter
E.
39 52 11
siao
38 1 57
9116
36 11 23
9100
34 90 31
9009
Fomalhaut K. |
46 0 13
3ft4S
44 20 0
9003
42 39 59
9001
41 0 10
9079
a Pegasi
E.
67 25 38
9060
65 46 15
3077
64 6 48
9076
62 27 20
9076
a Arietis
E.
108 42 57
aui
106 55 1
3906
105 6 41
9160
103 17 57
9174
35
Antares
W.
54 21 23
9044
56 13 48
9084
58 029
9030
59 59 25
9016
a Pegasi
E.
54 11 42
909»
52 33 21
9644
50 55 26
96d6
49 18 3
9006
a Arietis
E.
94 854
9107
92 18 7
9007
90 27 03
3067
88 35 44
9on
26
AnUres
W.
69 27 23
1979
71 31 31
1973
73 15 49
1906
75 10 15
U65
a Pegasi
E.
41 23 4
9995
39 51 30
8000
38 21 29| 9096
36 53 14
8190
a Arietis
E.
79 15 58
90tt
77 23 31
9041
75 31 0 xm
73 38 23
9066
Aldebaran
E.
109 37 1
9094
107 44 04
9017
105 50 67
9013
103 57 42
9006
27
AnUres
W.
84 43 15
1906
86 37 55
loao
88 32 32
19S9
9027 7
1966
a Arietis
E.
64 14 50
9090
62 22 22, 904i|
60 29 53
9048
58 37 34
9006
Aldebaran
E.
94 30 21
9000
93 36 48
3«03
90 43 16
9004
88 49 48= 3007
Saturn
E.
115 9 18
9000
113 15 43
3001
HI 22 10
9009
109 38 39 3000
28
AnUres
W.
99 58 25
1903
101 52 12
9000
103 45 47
9007
105 39 11 »w
a Aquiltt
W.
56 52 14
9375
68 16 55' 801
59 42 28
8193
61 8 47; »i66
Jupiter
W.
2129 30
9001
23 22 53; 90oe
25 16 15
9006
27 9 35! 3014
a Arietis
E.
49 19 11
9101
47 28 22
3199
45 37 57
9180
43 47 58 3107 1
Aldebaran
E.
79 24 4
9016
77 31 24
3044
75 38 58
9069
73 46 45 3069 ;
Saturn
E.
100 2 29
909O
98 9 41
3087
96 17 4
90U
94 24 39 3004
29
a Aquiltt
W.
68 28 47
9009
69 57 54
8C43
71 27 14
9096
72 56 43' »»
Jupiter
W.
36 33 55
9008
38 26 6
3064
40 18 0
9070
42 9 37 «w
Fomalhaut W.
35 35 16
9634
37 13 25
3807
38 52 11
9060
40 31 34 ^^
Aldebaran
E.
64 29 58
9134
62 39 36
91S9
60 49 36
9108
58 59 58 *^T0 1
Saturn
E.
85 6 28
9106
83 15 42
3133
81 25 16
9186
79 35 11 «• i
Mars
E.
115 12 48 awi
113 26 7
2»6
11139 47
%m
109 53 46 «» ,
j
|30
a Aquil«
W.
80 24 32 KM4
81 53 50
9003
83 22 58
9064
84 51 52; WW
1
Jupiter
W.
51 22 28i 3161
53 11 55 3176
55 0 58 9.W
56 49 37. 3906 1
'i
Fomalhaut W.
48 54 lOl 36U
50 35 7| 9011
52 16 5 3018
53 57 0 3on
1
Aldebaran
E.
49 58 28! tUM
48 11 36 M87
46 25 15
9807
44 39 26l 3»1
Saturn
E.
70 30 26! w»
68 42 41 3946
66 55 22
9«a
65 8 28 3981
Pollux
E.
93 31 53
3186
91 43 5 9904
89 54 43
9i90
88 6 46 3916
Mars
E.
101 9 8
9Bas
99 25 23 9410
97 42 2
9437
95 59 6. 34a
Sun
E.
138 38 43
3016
136 57 51 3M1
135 17 21
9546
133 37 14
9164 1
31
Jupiter
W.
65 46 31
9307
67 32 35 9S10
69 18 13
3S38
71 3 25
9861
Fomalhaut W. |
62 19 97 m»
63 59 18 9570
65 38 541 9088
67 18 13
9066
a Pegasi
W.
44 25 18' 8io»
45 53 21
8078
47 21 57! 8006
48 51 0
8080
Saturn
E.
56 90 44; ti7A
54 36 34
9160
52 52 52; 9415
51 9 39
*m
Pollux
E.
79 13 39, n»
77 28 21
9846
75 43 29 9864
73 59 3
9861
1
Mars
E.
87 30 53 ts39
855034 9508
84 10 41 9577
82 31 15
9067
1
Sun
E.
125 22 39 VM
1
123 44 59 9070
122 7 45 9602
120 30 56
97U
— L
XVI.
AUGUST, 1855.
129
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1^
Sur^t Name
P. L.
P. L.
P. L.
P. L.
1^
and
PMition.
Midnight.
of
DiO:
XVb.
of
xvinh.
of
Diff.
XXIh.
of
O 1 H
O 1 h
O 1 II
O 1 u
24
Venus W.
103 27 35
9979
105 14 6
2166
107 00 56
9959
108 48 06
3340
Spica W.
92 49 11
9006
94 40 13
9065
96 31 35
9079
98 23 17
9061
Antores W.
46 54 57
9096
48 46 03
9068
50 37 29
9069
52 29 16
9066
Jupiter E.
32 29 21
906S
30 37 55
9079
28 46 14
90U
26 54 19
9066
Fomalhaut E.
39 20 37
9000
37 41 31
9691
36 03 05
9663
34 25 35
9710
a Pegasi E.
a ArietiB E.
60 47 55
9083
59 08 35
9566
57 29 23
9506
55 60 24
9609
101 28 50
91M
99 39 21
9145
97 49 31
9188
95 59 22
9191
25
Antares W.
61 52 35
9007
63 45 59
1906
65 39 37
1991
67 33 25
1965
a Pegasi E.
47 41 18
97«
46 05 16
9766
44 30 06
9616
42 55 69
9879
a Arietia E.
86 44 10
9000
84 62 23
9069
83 00 25
9055
81 08 16
9049
26
Antares W.
77 04 46
1968
78 59 20
1961
80 53 56
1959
82 48 35
1966
a Pegasi E.
a Arietis E.
35 26 59
ttll
34 03 00
8440
32 41 29
8588
31 22 36
8749
71 45 44
90S4
69 53 01
9089
68 00 16
90S3
66 07 34
9036
Aldebaran E.
102 04 21
9006
100 10 55
9008
98 17 26
9001
96 23 64
9001
27
Antares W.
92 21 36
1966
94 16 00
1979
96 10 18
1976
98 04 27
1965
a Arietis E.
56 45 26
9063
54 53 30
9079
63 01 47
9083
51 10 21
9093
Aldebaran E.
86 56 25
9010
85 03 07
9016
83 09 57
9091
81 16 55
9036
Saturn E.
107 35 12
9006
105 41 50
9019
103 48 35
9017
101 55 28
9038
28
Antares W.
107 32 21
9096
109 25 15
9087
111 17 52
9049
113 10 10
9069
a Aquilae W.
62 35 47
8199
64 03 21
8104
65 31 26
8068
66 59 56
8066
Jupiter W.
29 02 48
9019
30 55 53
9096
32 48 47
9084
34 41 28
9048
a Arietis E.
41 58 26
9177
40 09 24
9900
38 20 57
99ar7
36 33 10
9355
Aldebaran E.
71 54 48
9078
70 03 07
9066
68 11 46
9097
66 20 41
9111
Saturn E.
92 32 29
9064
90 40 34
9074
88 48 55
9065
86 57 33
9006
29
aAquila W.
74 26 18
8099
75 55 55
8099
77 25 32
8039
78 55 05
8087
Jupiter W.
44 00 54
9109
45 51 50
9116
47 42 25
9180
49 32 38
9145
Fomalhaut W.
42 11 34
9ft30
43 51 59
9597
45 32 36
9591
47 13 19
9516
Aldebaran E.
57 10 46
9168
55 22 00
9906
53 33 41
9994
51 45 50
9344
Saturn E.
77 45 27
9166
75 56 06
9160
74 07 09
9196
72 18 35
9319
Mars E.
108 08 06
9896
106 22 48
9844
104 37 52
9359
102 53 18
9875
30
aAquila W.
86 20 31
8090
87 48 53
8106
89 16 55
8194
90 44 36
8149
Jupiter W.
58 37 51
9996
60 25 40
9948
62 13 03
9961
64 00 00
9gn9
Fomalhaut W.
55 37 49
9699
57 18 32
9580
68 69 03
9589
60 39 22
9549
Aldebaran E.
42 54 11
9855
41 09 31
9819
39 25 26
9406
37 42 00
9488
Saturn E.
63 22 01
9800
61 36 01
9816
59 50 28
9887
58 05 22
9856
Pollux E.
86 19 15
9956
84 32 11
9374
82 45 33
9993
80 59 23
9811
Mars E.
94 16 35
9463
92 34 30
9483
90 52 51
9501
89 11 39
9590
Sun E.
131 57 30
9569
130 18 10
9600
128 39 15
9616
127 00 44
9687
31
Jupiter W.
72 48 10
9869
74 32 29
9386
76 16 21
9406
77 59 45
9494
Fomalhaut W.
68 57 13
9610
70 35 55
9094
72 14 17
9638
73 52 20
9654
a Pegasi W.
50 20 25
8095
51 50 07
8014
53 20 02
8006
54 50 07
8001
Saturn E.
49 26 55
9456
47 44 40
9477
46 02 54
9497
44 21 37
9519
Pollux E.
72 15 05
9404
70 31 34
9499
68 48 30
9441
67 05 53
9459
Mars E.
80 52 16
9617
79 13 44
9687
77 35 39
9656
75 58 00
9676
L
Sun E.
118 54 34
9788
117 18 38
9758
115 43 08
9n9
114 08 04
9799
1
17
130
SEPTEMBER, 1855.
AT GREENWICH APPARENT NOON.
i
i
i
THE SUN'S
SIdafMl
mow
of the
Serakli-
aineter
paating
the
Mend.
iML
E^or
totm
•ubtraetei
^9sr
DMC
for
Ihour.
0.7T7
0.788
0.799
Apparent
Right A«coD«loiL
DHCfor
i hour.
Apparent
DeclinaUon.
Difl
for
Ihour.
Semi.
diAmeur.
Sat.
Sun.
Mon.
1
2
3
h. m. «.
10 40 19.49
10 43 57.16
10 47 34.57
9.079
9.067
9.056
N. 8 24 37.7
8 2 49.2
7 40 52.8
54.86
54.70
55.02
1^ 53.72
15 53.95
15 54.18
64.41
64.37
64.33
0 0.86
0 19.69
0 88.78
Tues.
Wed.
Thur.
4
5
6
10 51 11.73
10 54 48.67
10 58 25.39
9.046
9.037
9.028
7 18 48.8
6 56 37.5
6 34 19.2
55.88
55.62
55.91
15 54.41
15 54.64
15 54.88
64.29
64.26
64.23
0 5ai2
1 17.68
1 87.46
0.810
0.820
0.828
Fri.
Sal.
Sun.
t
7
8
9
11 2 1.91
11 5 38.23
11 9 14.38
9.020
9.013
9.006
6 11 54.4
5 49 23.3
5 26 46.3
56.18
56.43
56.67
15 55.12
15 55.36
15 55.60
64.20
64.18
64.16
1 57.45
2 17.63
2 37.97
0.886
0.844
0.851
1
IMon.
iTues.
Wed.
10
11
12
11 12 50.38
11 16 26.25
11 20 2.00
8.999
8.998
8.988
5 4 3.6
4 41 15.6
4 18 22.9
56.89
57.10
57.81
15 55.85
15 56.10
15 56.35
64.14
64.12
64.10
2 58.46
8 19.08
8 89.88
0.957
0.863
0.868
Thur.
Fri.
Sat
13
14
15
11 23 37.65
11 27 13.21
11 30 48.68
8.983
8.979
8.977
3 55 25.6
3 32 24.1
3 9 18.8
57.49
57.65
57.80
15 56.61
15 56.87
15 57.13
64.09
64.08
64.07
4 0.68
4 21.63
4 42.66
0.873
0.877
0.879
Sun.
Mon.
Tues.
16
17
18
11 34 24.09
11 37 69.47
11 41 34.84
8.975
8.974
8.974
2 46 10.0
2 22 58.2
1 59 43.6
57.94
58.07
58.18
15 57.40
15 57.67
15 57.94
64.06
64.06
64.07
5 8.74
5 24.85
5 45.98
0.881
0.883
0.882
Wed. 19
Thur. 20
Fri. 21
1
11 45 10.20
11 48 45.58
11 52 21.01
8.975
8.976
8.978
1 36 26.7
1 13 7.7
0 49 46.9
58.28
58.86
58.42
15 58.21
15 58.48
15 58.75
64.08
64.09
64.10
6 7.11
6 28.23
6 49.80
0.881
0.880
0.878
Sat. 22
Sim. 23
Mon. 24
1
11 55 56.50
11 59 32.07
12 3 7.75
8.982
8.987
8.992
0 26 24.7
N. 0 3 1.5
S. 0 20 22.4
58.46
58.49
58.52
15 59.03
15 59.31
15 59.59
64.11
64.12
64.14
7 10.81
7 31.23
7 52.05
0.874
0.869,
0.864
Tues. 25
Wed. 26
Thur. 27
12 6 43.56
12 10 19.55
12 13 55.72
8.996
9.006
9.015
0 43 46.8
1 7 11.3
1 30 35.5
58.54
58.5.n
58.51
15 59.87
16 0.14
16 0.41
64.16
64.18
64.21
8 12.72 0.857'
8 83.24'o.85o'
8 58.58 0.842,
Fri.
Sat
Sun.
28
29
30
12 17 32.08
12 21 8.68
12 24 45.53
9.025
9.0S6
9.046
1 53 59.3
2 17 22.3
2 40 44.1
58.48
58.44
58.88
16 0.68
16 Q.95
16 li22
64.24
64.28
64.32
9 13.71 0.8S2
9 83.61 0^21
9 53.26 0^10
Mon.
31
12 28 23.66
9.068
S. 3 4 4.4
58.81
16 1.49
64.36
10 18.64 0.799
Noi
r».—
Mmmr\amoflh»i
wmklwfiM
II.
SEPTEMBER, 1855.
131
QREENWICH MEAN TIME.
i
THE
MOON'S
Horiwoul Panllu.
MaridtenPMnee.
Agt.
Noon.
MIdnlfht.
Noon.
Diff.lbr
1 hour.
Midnight.
Diflr. for
1 hour.
DifT. for
1 hour.
1
1^ 5^.7
1^ 45.1
58 ^.1
—2.37
5*^ 4i.O
N
-282
h. m.
16 46.8
m.
2.15
d.
19.7
2
15 37.6
15 30.4
57 13.5
2.28
56 47.2
2.12
17 39.1
2.20
20.7
3
15 23.6
15 17.5
56 22.6
1.97
55 59.9
1.82
18 32.5
2.28
21.7
4
15 11.8
15 6.7
55 38.9
1.66
55 20.1
1.48
19 26.0
2.21
22.7
5
15 2.0
14 58.0
55 3.4
1.81
54 48.7
1.15
20 18.5
2.14
23.7
6
14 54.5
14 51,7
54 35.9
0.97
54 25.3
0.80
21 8.9
2.04
24.7
7
14 49.2
14 47.4
54 16.6
0.65
54 9.8
0.50
21 56.6
1.93
25.7
8
14 45.9
14 45.0
54 4.6
0.86
54 1.1
—0.22
22 41.5
1.82
26.7
9
14 445
14 44.4
53 59.4
—0.08
53 59.1
4-0.04
23 23.9
1.73
27.7
10
14 44.7
14 45.4
54 0.3
-H).15
54 2.7
0.26
6
28.7
11
14 46.5
14 47.8
54 6.6
0.37
54 11.6
0.47
0 4.5
1.67
0.0
12
14 49.6
14 51.7
54 17.9
0.58
54 25.5
0.68
0 44.2
1.66
1.0
13
14 54.0
14 66.8
54 34.2
0.79
54 44.4
0.90
1 24.0
1.68
2.0
14
14 59.9
15 3.4
54 55.7
1.00
55 8.4
1.11
2 4.7
1.74
3.0
15
15 7.2
15 11.5
55 22.4
1.28
55 38.1
1.85
2 47.6
1.85
4.0
16
15 16.2
15 21.1
55 54.9
1.46
56 13.2
1.58
3 33.7
2.00
5.0
IT
15 26.4
15 32.1
56 32.8
1.70
56 53.8
1.80
4 23.9
2.18
6.0
18
15 38.2
15 44.6
57 16.1
1.89
57 39.4
1.97
5 18.6
2.87
7.0
19
15 51.1
15 67.9
58 3.3
2.02
58 27.8
2.05
6 17.4
2.50
8.0
20
16 4.6
16 11.2
58 52.4
2.08
59 16.5
1.98
7 18.5
2.55
9.0
21
16 17.6
16 23.4
59 39.8
1.87
60 1.4
1.71
8 19.9
2.52
10.0
22
16 28.8
16 33.4
60 20.8
1.50
60 37.5
1.25
9 19.4
2.42
11.0
23
16 37.0
16 89.6
60 50.9
0.95
61 0.4
-H).61
10 16.0
2.80
12.0
24
16 40.9
16 41.1
61 5.6
-H).26
61 6.3
—0.18
11 9.7
2.19
13.0
26
16 40.0
16 37.8
61 2.4
-0.52
60 53.9
089
12 1.3
2.13
14.0
26
16 34.3
16 29.7
60 41.1
1.24
60 24.2
1.55
12 52.0
2.12
15.0
27
16 24.1
16 17.8
60 3.9
1.81
59 40.7
2.04
13 43.0
2.16
16.0
28
16 10.8
16 3.3
59 14.9
2.21
58 47.7
2.80
14 35.0
2.20
17.0
29
15 55.6
15 47.8
58 19.6
2.35
57 51.2
2.85
15 28.5
2.24
18.0
30
15 40.2
15 32.7
57 23.1
2.31
56 55.7
2.21
16 23.2
2.29
19.0
31
15 25.7
15 19.1
56 30.0
—2.09
56 5.6
—1.95
17 18.4
2.29
20.0
'
132
SEPTEMBER, 1855.
III.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour
Right AjceiMion.
Diff:
forlm.
DecliDaUoa.
mtr.
for 1 m.
Hour.
RiffatAK«MkKL
Diir.
forlm.
DkUmUod.
Diff
forlm.
SATl
URDA
Y 1.
MONDAY
3.
h. m. ■.
«.
O 1 N
II
b. m. 1.
«.
O 1 H
M
0
2 52 31.40
xooen
N.17 30 9.4
19.008
0
4 40 49.40
94097
N.26 18 21.1
0466
1
2 54 43.80
a.«m
17 42 47.7
19.068
1
4 43 7.60
94041
26 24 50.0
6410
2
2 56 56.31
3.9097
17 55 19.4
19^79
2
4 46 26.89
9.8064
26 31 10.4
0.967
3
2 59 8.95
9.9117
18 7 44.4
19.860
3
4 47 44.26
9.8067
26 37 22.3
0.196
4
3 1 21.71
9.9187
18 20 2.7
19.348
4
4 60 2.69
94080
26 43 26.6
6469 ,
6
3 3 34.60
9.9108
18 32 14.2
13.185
6
4 62 21.21
9.8099
25 49 20.2
6440
6
3 5 47.61
9.9179
18 44 18.9
194)99
6
4 64 39.80
94106
26 65 6.3
6497
7
3 8 0.74
9.9900
18 56 16.7
11.007
7
4 56 68.46
9.8114
26 0 43.8
64S8
8
3 10 14.00
9.9933
19 8 7.5
11.700
8
4 69 17.17
94194
26 6 12.6
6406
9
3 12 27.39
9.9343
19 19 51.4
11479
9
6 1 36.95
94184
26 11 32.8
6468
10
3 14 40.91
9.9364
19 31 28.2
11468
10
6 3 54.79
94148
26 16 44.3
6.118
11
3 16 54.55
9.928S
19 42 57.9
11.484
11
6 6 13.67
9.8163
26 2147.1
4478
19
3 19 8.33
9.9107
19 54 20.4
1M16
12
6 8 32.61
94160
26 2641.2
4498
13
3 21 22.24
9.9sao
20 5 35.7
11.194
13
6 10 61.69
94167
26 31 26.6
4488
14
3 23 36.29
9.93A3
20 16 43.7
114)78
14
6 13 10.61
94178
26 36 3.2
4486
15
3 25 50.47
9.9874
20 27 44.5
10.909
16
6 16 29.66
94179
26 40 31.1
4466 j
16
3 28 4.77
S.9807
20 38 37.9
10.899
16
6 17 48.75
94184
26 44 60.3
4.917
17
3 30 19.22
9.9490
20 49 23.9
10.706
17
6 20 7.87
94180
26 49 0.7
4.101
18
3 32 33.81
9.9449
21 0 2.5
10469
18
6 22 27.01
94198
26 63 2.4
8406
19
3 34 48.52
9.9408
21 10 33.6
10.406
19
6 24 46.18
94196
26 66 55.3
8406
20
3 37 3.37
9.9186
21 20 57.2
10.830
20
6 27 6.36
94198
27 0 39.4
8406
21
3 39 18.35
9.9808
21 31 13.2
10.908
21
5 29 24.55
94900
27 4 14.8
8417
22
3 41 33.46
9.9U1
214121.6
louno
22
6 31 43.75
94900
27 7 41.4
8470
23
3 43 48.71
SU
9.95A4
NDAl
N.21 51 22.3
r 2.
9.947
23
6 34 2.95
TUl
94900
ESDA
N.27ia69.2
Y 4.
8498
0
3 46 4.08
9.9676
\ 22 1 15.4
9.819
0
6 36 22.16
94900
N.27 14 8.2
tjm
1
3 48 19.58
9.9A06
22 11 0.7
9400
1
6 38 41.35
94196
27 17 8.4
9496
2
3 50 35.2*2
9.9017
22 20 38.1
9460
2
6 41 0.53
94196
27 19 69.7
9.788
3
3 52 50.98
9.9838
22 30 7.8
9499
3
6 43 19.70
94198
27 22 42.3
94n
4
3 55 6.87
^96ao
22 39 29.6
9.307
4
6 45 38.85
94180
27 25 16.1
9461
5
3 67 22.89
9.9080
22 48 43.5
9.100
6
6 47 57.97
94186
27 27 41.2
94tt
6
3 59 39.03
9.9701
22 57 49.5
9/m
6
5 50 17.07
94180
27 29 57.5
9.199
7
4 1 55.30
9.9T33
23 6 47.5
8.900
7
6 62 36.13
94174
27 32 5.1
9406
8
4 4 11.69
9.9748
23 15 37.5
8.766
8
6 54 55.15
94107
27 34 3.9
1406
9
4 6 28.21
9.9763
23 24 19.4
8.633
9
6 57 14.13
94167
27 35 54.0
1.768
10
4 8 44.85
9.9783
23 32 53.3
8.497
10
6 69 33.06
94166
27 37 36.4
1417
11
4 11 1.61
9.9808
23 41 19.0
8461
11
6 1 61.94
94141
27 39 8.0
1471
12
4 13 18.49
9.9833
23 49 36.6
8.336
12
6 4 10.76
94181
27 40 31.9
1491
13
4 15 35.48
9.9841
23 57 46.0
8488
13
6 6 29.52
94130
27 4147.0
1.179
14
4 17 52.58
9.3800
24 6 47.2
7.961
14
6 8 48.21
94108
27 42 63.5
1464
15
4 20 9.80
9.9870
24 13 40.2
7413
15
6 11 6.83
94096
27 43 51.2
0466
16
4 22 27.13
9.3807
24 2124.9
7.676
16
6 13 25.37
94083
27 44 40.3
0.7a '
17
4 24 44.56
9.9616
24 29 1.3
7.637
17
6 15 43.83
94009
27 45 20.7
0L606 •
18
4 27 2.10
9.909
24 36 29.3
7498
18
6 18 2.21
94066
27 45 52.4
0486 1
19
4 29 19.74
9J640
24 43 49.0
7.368
19
6 20 20.50.
94040
27 46 15.5
0419 '
20
4 31 37.4H
9.9684
24 51 0.3
7.118
20
6 22 38.69
94034
27 46 29.9
0.168
21
4 33 55.32
9.9681
24 58 3.2
6.978
21
6 24 56.78
94007
27 46 36.7
0466
22
4 36 13.26
9.9007
25 4 57.6
6487
22
6 27 14.77
9.9686
27 46 32.9
otin
23
4 38 31.28
9.1019
25 1143.6
6.696
23
6 20 32.64
94670
27 46 21.6
0.960
24
4 40 49.40
9.8697
N 25 18 21.1
6406
24
6 31 60.41
9.9661
N2746 1.7
0.408
IV.
SEPTEMBER, 1855.
133
GREENWICH MEAN TIME.
THE
MOON»S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AKMWiOO.
DHT
Ibrlm.
DscUoBtkm.
DiflT.
forlm.
Elour.
Right AKMMion.
DMr.
forlm.
DeeUnatkn.
DIff.
fbrlm.
WEDI
^ESD^
lY 5.
FRIDAY
7.
h. m. 1.
•.
O 1 H
«
h. m. ■.
■.
O 1 N
N
0
6 31 50.41
S.10A1
N27 46 1.7
0.408
0
8 18 31.54
9.1801
N.24 52 38.4
8X70
1
6 34 8.06
%Vi\
27 45 33.3
0.040
1
8 20 39.22
9.1907
24 46 0.5
0.087
2
6 36 25.58
J.»IO
27 44 56.4
0.066
2
8 22 46.63
9.1913
24 39 16.0
6.79T
3
6 38 42.98
%»66
27 44 11.1
0.897
3
8 24 53.78
9.1106
24 32 24.9
6XU6
4
6 41 0.24
S.9866
27 43 17.3
0.00B
4
8 27 0.66
9.1198
24 25 27.2
7X10
5
6 43 17.37
%Mi
27 42 15.0
1.106
5
8 29 7.26
9.1078
24 18 23.1
7.198
6
6 45 34.36
9J890
27 41 4.4
1.947
6
8 31 13.60
9.1088
24 1112.5
7.939
7
6 47 51.21
9.7794
27 39 45.4
1.886
7
8 33 19.66
9^)888
24 3 55.5
7X86
8
6 50 7.90
ojanm
27 38 18.1
1.000
8
8 35 25.46
9.0048
23 56 32.2
7.441
9
6 52 24.45
9.974S
27 36 42.5
1.668
9
8 37 30.98
9X606
23 49 2.5
7.046
10
6 54 40.83
2.9717
27 34 58.6
1.809
10
8 39 36.23
9.0809
23 41 26.6
7.600
11
6 56 57.05
9.90BO
27 33 6.4
1.M0
11
8 41 41.21
9.0807
23 33 44.5
7.708
13
6 59 13.11
9.9009
27 31 5.9
9.077
12
8 43 45.92
9.0763
23 25 56.2
7X00
13
7 1 28.99
9.90Bt
27 28 57.2
9.918
13
8 45 50.35
9.0717
23 18 1.8
7X07
14
7 3 44.70
9JO0B
27 26 40.4
9.848
14
8 47 54.51
9.0671
23 10 1.4
8.006
15
7 6 0.23
9.9071
27 24 15.4
9.488
15
8 49 58.39
9UM90
23 154.9
8.106
16
7 8 15.58
9.9041
27 21 42.3
9.618
16
8 52 2.00
9UW79
22 53 42.5
8.307
17
7 10 30.74
9.9019
27 19 1.2
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17
8 54 5.34
9.0088
22 45 24.3
8X04
18
7 12 45.72
9.9180
27 16 12.0
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18
8 56 8.41
9.0487
22 37 0.2
8.400
10
7 15 0.50
9.9447
27 13 14.9
8J)ie
19
8 58 11.21
9.0449
22 28 30.3
8X40
20
7 17 15.09
9JUU
2710 9.8
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20
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9U)888
22 19 54.8
8X40
31
7 19 29.47
9.9870
27 6 56.8
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21
9 2 15.98
9UB03
22 11 13.5
8.7S6
22
7 21 43.65
9.9B40
27 3 35.9
8.418
22
0 4 17.96
9.0007
22 2 26.6
8X38
23
7 23 57.62
THU
9.9S11
RSDA
N.27 0 7.2
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8.644
23
9 6 19.67
SAT
9jn09
URDA
.V.21 53 34.2
Y 8.
8X90
0
7 26 11.39
^9376
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8.674
0
9 8 21.11
9.0917
N.21 44 36.3
9X19
1
7 28 24.94
9.9941
26 52 46.3
8.808
1
9 10 22.28
9.0179
21 35 32.9
9.109
2
7 30 38.27
9.9900
26 48 54.2
8.089
2
9 12 23.18
9U>198
2126 24.1
9.199
3
7 32 51.39
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3
9 14 23.81
9UMns
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9.961
4
7 35 4.28
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26 40 47.1
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4
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9X000
21 7 50.4
9X69
6
7 37 16.94
9.9003
26 36 32.1
4.818
5
9 18 24.28
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20 58 25.7
9.407
6
7 39 29.38
9.9008
26 32 9.5
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6
9 20 24.12
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20 48 55.7
9X48
7
7 41 41.59
9.9010
26 27 39.4
4.060
7
9 22 23.70
1X907
20 39 20.6
9X38
8
7 43 53.56
9.1W0
26 23 1.8
4.600
8
9 24 23.01
1X664
20 29 40.3
9.718
9
7 46 5.30
9.1087
26 18 16.7
4.8U
9
9 26 22.07
1X091
20 19 55.0
9.797
10
7 48 16.80
9.1097
26 13 24.2
4.800
10
9 28 20.87
1.9777
20 10 4.7
9X80
11
7 50 28.06
9.1806
26 8 24.4
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11
9 30 19.40
1X784
20 0 9.4
9X03
12
7 52 39.07
9.1810
26 3 17.3
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12
9 32 17.68
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19 50 9.2
10X48
13
7 54 49.84
9.1774
25 58 2.9
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13
9 34 15.70
1X600
19 40 4.2
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14
7 57 0.36
9.1788
25 52 41.3
0.490
14
9 36 13.47
1X007
19 29 54.4
10X08
15
7 59 10.64
9.1001
25 47 12.5
0.0SO
15
9 38 10.98
1X060
19 19 39.8
10.983
16
8 120.66
9.1048
25 4136.6
6.006
16
9 40 8.24
1X038
19 9 20.5
10X00
17
8 3 30.43
9.1006
25 35 53.6
0.776
17
9 42 5.26
1X481
18 58 56.6
10.487
18
8 5 39.94
9.1008
25 30 3.6
6.808
18
9 44 2.03
1X440
18 48 28.1
10X18
19
8 7 49.19
9.1090
25 24 6.5
6.006
19
0 45 58.55
1X400
18 37 55.1
10.068
20
8 9 58.19
9.1477
25 18 2.6
0.198
20
9 47 54.83
1X800
18 27 17.6
10X68
21
8 12 6.92
9.1488
25 11 51.7
6.986
21
9 49 50.87
1X890
18 16 35.6
10.787
22
8 14 15.39
9.1860
25 5 34.0
6.801
22
9 51 46.67
1X981
18 5 49.2
10X09
23
8 16 23.60
9.1840
24 59 9.6
6.468
23
9 53 42.24
1X949
17 54 58.6
10X80
24
8 18 31.54
9.1801
N 24 52 38.4
6.070
24
0 55 37.57
1X908
N.17 44 3.6
10X01
134
SEPTEMBER, 1855.
V.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Dis:
fori m.
DecUoaUoQ.
Diff.
fbrlm.
Hoar.
Right iKeMioD.
Dur.
fiarlm.
Diff.
Ibrlm.
SUNDAY
9.
TUESDAY
11.
h. m. ■.
1 ••
O 1 N
»
b. m. ■.
•.
O 1 u
N
0
9 55 37.57
1.9908
N17 44 3.6
10.951
0
1124 8.03
L7867
N. 7 52 21.0
18498
1
9 57 32.67
1^16A
17 33 4.4
11.099
1
11 25 55.19
1.7859
7 38 56.4
18.495
3
9 59 27.55
1.9127
17 22 1.0
114)91
2
11 27 42.26
1.7886
7 25 30.0
18.456
3
10 1 22.19
1.9089
17 10 53.5
11.160
3
11 29 29.25
1.7995
7 12 1.8
18.487
4
10 3 16.61
L9051
16 59 41.9
11.298
4
11 31 16.16
1.7819
6 58 31.7
18410
5
10 5 10.80
IJWIS
16 48 26.2
1L994
5
11 33 2.99
1.7800
6 45 0.0
18444
6
10 7 4.77
iJBBnt
16 37 6.6
11.860
6
11 34 49.75
1.7788
6 3126.5
18479
7
10 8 58.52
1.8940
16 25 43.1
11.435
7
11 36 36.44
1.7777
6 17 51.4
18489
8
10 10 52.05
1.8906
16 14 15.7
11.489
8
11 38 23.07
1.7766
6 4 14.7
18485
9
10 12 45.37
1.8870
16 2 44.5
11.869
9
11 40 9.63
1.7787
5 50 36.4
18460
10
10 14 38.48
1.88t6
15 51 9.5
11.615
10
11 41 56.14
1.7748
5 36 56.7
18475
11
10 16 31.38
1.8800
15 39 30.8
ii.m7
11
11 43 42.59
1.7789
5 23 15.5
18469
12
10 18 24.07
1.8765
15 27 48.3
11.788
12
11 45 28.99
1.7780
5 9 32.9
18.739
13
10 20 16.56
137S0
15 16 2.2
11.796
13
11 47 15.34
L7799
4 55 48.9
18.745
14
10 22 8.84
1.8097
15 4 12.5
11.868
14
11 49 1.66
LTI15
4 42 3.7
18.767
15
10 24 0.93
1.8066
14 52 19.3
11.917
15
11 50 47.03
LTI08
4 28 17.1
18.787
16
10 25 52.82
1.88n
14 40 22.6
11J74
16
11 52 34.16
1.7708
4 14 29.4
13405
17
10 27 44.52
1.8001
14 28 22.5
lum
17
11 54 20.37
1.7696
4 0 40.5
19438
18
10 29 36.03
1.8570
14 16 19.0
19485
18
11 56 6.54
L7694
3 46 50.5
18419
19
10 31 27.35
1.8519
14 4 12.2
12.140
19
11 57 52.70
1.7690
3 32 59.4
18461
20
10 33 18.50
1.8606
13 52 2.2
18.195
20
11 59 38.83
1.7687
3 19 7.2
18477
21
10 35 9.46
1.8178
13 39 48.9
12.846
21
12 1 24.94
1.7685
3 5 14.1
18408
22
10 37 0.24
1.8449
13 27 32.4 19.800
22
12 3 11.04
1.7683
2 51 20.0
18408
23
10 38 50.85
MOI
1.8490
WAY
N.13 15 12.9, i%ua
10.
23
12 4 57.14
WEDI^
L7aB9
JESDiS
N. 2 87 25.1
lY 12.
18484
0
10 40 41.29
L8899
N.13 2 50.2
18.40
0
12 6 43.23
1.7889
N. 2 23 29.2
18438
1
10 42 31.55
1.8M4
12 50 24.5
19.468
1
12 8 29.32
1.7089
2 9 32.5
18461
2
10 44 21.64
1.83M
12 37 55.7
19408
2
12 10 15^41
1.7888
1 55 35.1
184A
3
10 46 11.57
1.8906
12 25 24.0
1S409
3
12 12 1.51
1.7685
1 41 36.9
18475
4
10 48 1.34
1.8989
12 12 49.4
13400
4
12 13 47.62
1.7687
127 38.1
18406
5
10 49 50.95
1.8966
12 0 11.9
19448
6
12 15 33.75
1.7880
1 13 38.6
18498
6
10 51 40.41
1.89M
1147 31.6
13494
6
12 17 19.89
1.7699
0 59 38.6
14405
7
10 53 29.72
1.8905
1134 48.6
13.740
7
12 19 6.05
L7697
0 45 38.1
14418
8
10 55 18.88
1.8180
1122 2.8
13.786
8
12 20 52.24
1.7709
0 3137.1
14490
9
10 57 7.89
1.8157
11 9 14.4
19430
9
12 22 38.46
1.7707
0 17 35.6
14497
10
10 58 56.76
1.8IS4
10 56 23.3
19479
10
12 24 24.71
1.7719
N. 0 3 33.8
14468
11
11 0 45.50
1.8119
10 43 29.7
13415
11
12 26 11.00
1.7718
a 0 10 28.3
14488
12
11 2 34.10
1.8000
10 30 33.6
19466
12
12 27 57 33
1.7796
0 24 30.8
1440
1 i3
11 4 22.57
1.8068
10 17 35.0
19407
13
12 29 43.71
1.7784
0 38 33.5
14417
1 14
11 6 10.91
1.8047
10 4 34.0
18487
14
12 31 30.14
1.7748
0 52 36.5
14460
15
11 7 59.13
14097
9 51 30.6
18476
15
12 33 16.62
1.7769
1 6 39.6
14486
J5
11 9 47.23
1.8007
0 38 24.9
18.115
10
12 35 3.16
1.7789
1 20 42.8
14468
17
11 11 35.21
1,7987
9 25 16.9
18.168
17
12 36 49.76
1.7779
1 34 46.0
14484
18
11 13 23.07
1.7968
9 12 6.6
18.189
18
12 38 36.43
1.7783
1 48 49.3
I44M
19
11 15 10.82
1.7950
8 58 54.2 18.995
19
12 40 23.17
1.7796
2 2 52.5
14468
20
11 16 58.46
1.79)9
8 45 39.6 U.900
20
12 42 9.98
1.7808
2 16 55.7
14481
1 21
11 18 46.00
1.7915
8 32 23.01 U.9B6
21
12 43 56.87
1.7899
2 30 58.7
14461 '
i V.
11 20 33.44
1.789»
8 19 4.3' ISM
22
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2 45 1.5
1
14444
1 iS
11 22 20.78
1.7H6i
8 5 43.6i is^i
23
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2 59 4.1
14461
! 24
11 24 8.03
1.7867,
N. 7 52 21.0
18498 1
24
12 49 18.05
1.7868
& 3 13 6.4
u«.,
VI.
SEPTEMBER, 1855.
135
GREENWICH MEAN TIME.
THB
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Blf ht AflceMkNL
Dlff.
fori m.
DwUcmUoo.
forlm.
Hour.
BiflitAMeuioo.
Diflr.
for! m.
Dedlnatton.
forlm.
THU]
dSDA^
f 13.
SATURDAY 15.
h. m. t.
•.
O 1 »
V
h. m. t.
•.
O 1 «
n
0
12 49 18.05
1.7888
& 3 13 6.4
140)05
0
14 18 9.48
1.0496
&14 4 50.0
19.767
1
12 51 5.29
1.7884
3 27 8.4
14.060
1
14 20 6.17
1.9474
14 17 34.5
19.715
2
12 52 52.64
1.7801
3 41 10.1
14.099
2
14 22 3.17
1.9698
14 30 15.9
19.663
3
12 54 40.08
1.7918
3 55 11.3
14.015
3
14 24 0.46
1.9573
14 42 54.2
19.610
4
12 56 27.63
1.79M
4 9 12.0
ujm
4
14 25 58.06
1.9695
14 55 29.3
19.507
5
12 58 15.30
1.79M
4 23 12.2
18.990
5
14 27 55.97
lJ9m
15 8 1.1
19J08
6
13 0 3.08
1.7978
4 37 11.9
18J00
6
14 29 54.20
ijmi
15 20 29.7
19.448
7
13 1 50.98
1.78M
4 51 11.0
13.960
7
14 31 52.75
1.0785
15 32 55.0
19J09
8
13 3 39.01
1.8016
5 5 9.3
i%jm
8
14 33 51.62
1.9638
15 45 16.8
13.335
9
13 5 27.16
1.8087
5 19 7.0
13.006
9
14 35 50.81
1J8B8
15 57 35.2
13.977
10
13 7 15.45
1.8000
5 33 3.9
13JM1
10
14 37 50.33
1.9048
16 9 50.0
13.917
11
13 9 3.87
1.8069
5 46 59.9
13.097
11
14 39 50.18
94)008
1622 1.1
19.1fl6
12
13 10 52.43
1.8108
6 0 55.1
13.019
12
14 41 50.37
94)050
16 34 8.5
194)09
13
13 12 41.14
1.8180
6 14 49.4
13.806
13
14 43 50.90
94)116
16 46 12.1
134)98
14
13 14 29.99
I.81M
6 28 42.6
18.880
14
14 45 51.77
94)178
16 58 11.9
11.963
15
13 16 19.00
1.8181
6 42 34.9
13.869
15
14 47 52.98
94)931
17 10 7.7
11.807
16
13 18 8.16
1.8908
6 56 26.1
13344
16
14 49 54.54
94)990
17 21 59.5
11.890
17
13 19 57.49
1.8SA
7 10 16.1
13.895
17
14 51 56.46
94)850
17 33 47.3
11.709
18
13 21 46.98
1.8QBS
7 24 5.0
13.805
18
14 53 58.74
94)410
17 45 30.9
11.608
19
13 23 36.64
1.8999
7 37 52.7
13.784
19
14 56 1.38
94)471
17 57 10.4
11.698
20
13 25 26.48
1.8399
7 51 39.0
13.763
20
14 58 4.39
94)068
18 8 45.7
11.569
21
13 27 16.50
1.8S09
8 524.1
13.740
21
15 0 7.77
94)005
18 20 16.6
11.478
22
13 29 6.70
1.8989
8 19 7.8
13.716
22
15 2 11.52
94)667
18 3143.1
11.408
23
13 30 57.09
14M18
& 8 32 50.0
13.601
23
15 4 15.64
94ni8
S.18 43 5.1
11.898
FR]
[DAY
1
SUl
WAY
16.
0
13 32 47.66
1.8448
& 8 46 30.7
13.665
0
15 6 20.13
2.0780
S 18 54 22.5
11.351
1
13 34 38.43
1.8478
9 0 9.8
13.688
1
15 8 25.00
94)843
19 5 35.3
11.173
2
13 36 29.39
1.8811
9 13 47.3
13.610
2
15 10 30.25
94)907
19 16 43.3
11.898
3
13 38 20.56
1.8545
9 27 23.1
13.589
3
15 12 35.88
94)079
19 27 46.5
114)13
4
13 40 11.93
1.8080
9 40 57.2
13.558
4
15 14 41.90
9.1037
19 38 44.8
10J80
5
13 42 3.52
1.8615
9 54 29.4
13.593
5
15 16 48.31
9.1109
19 49 38.2
lOJM
6
13 43 55.32
1.8659
10 7 59.9
13.409
6
15 18 55.12
9.1166
20 0 26.5
10.763
7
13 45 47.34
1.8669
10 21 28.5
13.460
7
15 21 2.33
9.1985
20 11 9.7
10.677
8
13 47 39.59
1.8797
10 34 55.1
13.497
8
15 23 9.93
9.1309
20 2147.8
lOJOO
9
13 49 32.06
1.8765
10 48 19.7
13.396
9
15 25 17.94
9.1369
20 32 20.7
10.503
10
13 51 24.77
1.8804
11 142.3
10
15 27 26.35
9.1437
20 42 48.2
10.418
11
13 53 17.71
1.88U
11 15 2,7
13.898
11
15 29 35.17
9.1505
20 53 10.3
10.898
12
13 55 10.90
1.8685
1128 21.0
13.987
12
15 31 44.40
9.1573
21 3 26.9
10.980
13
13 57 4.33
1.899T
114137.1
13.950
13
15 33 54.03
9.1641
21 13 37.9
10.185
14
13 58 58.01
1.8089
1154 50.8
13.919
14
15 36 4.08
9.1700
21 23 43.2
104)40
15
14 0 51.95
1J»I9
12 8 2.3
13.178
15
15 38 14.53
9.1778
21 33 42.8
0.045
16
14 2 46.15
1.0055
1221 11.4
18.180
16
15 40 25.40
9.1847
21 43 36.6
0.847
17
14 4 40.61
1.9009
12 34 17.9
184)90
17
15 42 36.69
9.1017
21 53 24.4
0.748
18
14 6 35.-33
1.0141
12 47 22.0
13.047
18
15 44 48.40
9.1067
22 3 6.3
0.650
19
14 8 30.32
1.0188
13 0 23.5
134)08
19-
15 47 0.53
9.9057
22 12 42.2
0.546
20
14 10 25.59
1.0M5
13 13 22.4
19.906
20
15 49 13.08
3.9197
22 22 11.8
0.445
21
14 12 21.14
1.0989
13 26 18.6
19.919
21
15 51 26.05
9.9107
22 3135.3
0.340
22
14 14 16.97
1.0S90
13 39 12.0
19.865
22
15 53 39.44
9.9967
22 40 52.5
0.333
23
14 16 13.08
1.0877
13 52 2.4
19.817
23
15 55 53.26
9.9338
22 50 3.2
0.135
24
14 IS 9.48
1.0445
S.14 4 50.0
19.767
24
15 58 7.51
9.9410
S22 59 7.4
04)15
136
SEPTEMBER, 1855.
VII.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
RigblAjCfliMion.
Dis:
forlm.
DacUMtioo.
DIff.
(brim.
Moor.
RifhtAKCCMiOO.
Dlif
fxlm.
DKllnttioQ.
Dur
fbrlm.
MONDAY
17.
WEDNESDAY 19.
h m t.
•.
O 1 N
u
h. m. ■.
t.
O 1 «
« 1
0
15 58 7.51
^9«lo
S22 69 7.4
0.016
0
17 53 32.88
93488
S.27 39 57.8
9.n« 1
1
16 0 22.19
9.9489
23 8 6.0
8.006
1
17 56 5.95
93686
27 42 3.2
tjom \
S
16 2 37.29
S.96M
23 16 56.0
8.703
2
17 58 39.30
93680
27 43 58.1
1398 !
3
16 4 52.82
3.«n5
23 25 40.2
8.680
3
18 1 12.91
9JWS
27 45 42.6
1366
4
16 7 8.78
3.9606
23 34 17.6
8.605
4
18 3 46,78
9.6666
27 47 16.6
1.478
5
16 9 25.17
%.7im
23 42 48.0
8.460
5
18 6 20.89
93707
27 48 40.0
1.309
6
16 11 41.98
9.«ae
23 51 11.5
8.339
6
18 8 55.25
93747
27 49 52.8
1.190 )
7
16 13 59.22
3.9800
23 59 27.9
84113
7
18 11 29.85
9.6786
27 50 54.9
0347 ■
8
16 16 16.89
9.9080
24 7 37.1
8.088
8
18 14 4.67
9.68-29
27 5146.2
0.767
9
16 18 34.98
9.3061
24 16 39.1
7.071
9
18 16 39.71
9.6868
27 52 26.8
0.666
10
16 20 53.50
9^199
24 23 33.8
7318
10
18 19 14.96
9.6809
27 52 56.5
0.406
11
16 23 12.44
9.3 I9t
24 31 21.0
7.793
11
18 21 50.42
3.6096
27 53 15.4
0.994
13
16 25 31.81
9.3954
24 39 0.7
7.607
12
^ 18 24 26.07
9.6068
27 53 23.4
0349
13
16 27 51.61
9.3S3A
24 46 32.8
7.471
13
18 27 1.91
93068
27 53 20.4
0.140 :
u
16 30 11.83
9.3400
24 53 57.3
7.343
14
18 29 37.92
93017
27 53 6.5
0393
1 16
16 32 32.48
9.34T7
25 1 14.1
7.913
15
18 32 14.11
93046
27 52 41.5
0.600 1
1 16
16 34 53.55
93M7
26 8 23.0
7.089
16
18 34 50.46
93071
27 52 5.5
0303
17
16 37 15.04
9.3017
25 15 24.0
0.060
17
18 37 26.96
93007
27 51 18.4
03n .
18
16 39 36.95
9.3086
25 22 17.0
6316
18
18 40 3.61
93190
27 50 20.3
1309
19
16 41 59.27
9.87M
25 29 1.9
6.OB0
19
18 42 40.39
93149
27 49 11.0
13C7
20
16 44 22.01
9.3894
25 35 38.6
0.549
20
18 45 17.30
93169
27 47 50.6
1330
21
16 46 45.16
9.3609
25 42 7.0
0.403
21
18 47 54.33
93180
27 46 19.0
1390
22
16 49 8.72
9.3000
25 48 27.1
0.903
22
18 50 31.47
93197
27 44 36.2
1306
23
16 51 32.68
TUE
9.1098
SDAl
S.25 54 38.7
r 18.
0.193
23
18 53 8.70
THU
93913
RSDA
&27 42 42.1
Y 20.
130T
0
16 53 57.05
9.4006
s26 0 41.8
0381
0
18 55 46.03
93»8
8.27 40 36.7
9.180
1
16 56 21.82
9U161
26 6 36.3
6337
1
18 58 23.44
93940
27 38 20.0
9379
2
16 58 46.98
9.4997
26 12 22.1
6300
2
19 1 0.91
93960
27 35 52.1
9.660
3
17 1 12.54
9.4909
26 17 59.1
63tt
3
19 3 38.45
93900
27 33 12.8
9.746
4
17 3 38.49
9.4367
26 23 27.3
6J0A
4
19 6 16.04
93970
27 30 22.2
9J67
5
17 6 4 83
9.4499
26 28 46.5
6.947
5
19 8 53.68
93978
27 27 20.3
6.196
6
17 8 31.55
9.4486
26 33 56.8
•307
6
19 11 31.35
93989
27 24 7.0
3314
7
17 10 58.66
9.4648
26 38 58.0
4346
7
19 14 9.05
93986
27 20 42.4
•306 ,
8
17 13 26.14
9.4610
26 43 50.1
4.799
8
19 16 46.77
93988
27 17 6.6
•309
; 9
17 15 53.99
9.4079
26 48 33.0
4388
9
19 19 24.51
93980
27 13 19.4
•370 :
1 10
17 18 22.21
9.4733
26 53 6.6
4.48t
10
19 22 2.25
93988
27 9 20.9
4367 1
1 11
17 20 50.79
9.4703
26 57 30.8
4396
11
19 24 39.98
93986
27 5 11.2
4366 1
1 12
17 23 19.73
9.4869
27 1 45.5
4.167
12
19 27 17.69
93988
27 0 50.1
43a I
13
17 25 49.02
9.4010
27 5 50.7
4307
13
19 29 55.38
93978
26 56 17.7
433S
. 14
17 28 18.65
9.4008
27 9 46.2
8346
14
19 32 33.02
93979
265134.1
4391
15
17 30 48.63
9.609A
27 13 32.1
3363
15
19 35 10.63
93908
26 46 39.2
AM
16
17 33 18.94
9.3060
27 17 8.2
8390
16
19 37 48.19
93963
26 4133.1
6.106 '
17
17 35 49.59
9.6136
27 20 34.5
3366
17
19 40 25.68
939tt
26 36 15.7
•J66
18
17 38 20.56
9.6188
27 23 50.9
3.100
18
19 43 3.11
93939
26 30 47.1
•310
19
17 40 51.85
9.6940
27 26 57.3
3393
19
19 46 40.46
93918
26 25 7.3
•.767
, 20
17 43 23 46
9.6m
27 29 53.7
9366
20
19 48 17.73
9390S
26 19 16.3
, •3«
21
17 45 55.37
9.6343
27 32 40.0
9388
21
19 50 54.91
93188
26 13 14.2
6.196
22
17 48 27.58
9.6301
27 35 16.2
9318
22
19 53 31.99
93171
26 7 1.0
6JU
23
17 61 0.09
9.M41
27 37 42.1
9347
23
19 56 8.96
93168
26 0 36.7
630T
24
17 53 32.88
9.64W
S27 39 57.8.
9.176
24
19 58 45.82
93139
25 54 1.4
6380
VIII. SEPTEMBER, 1855.
137
GREENWICH MEAN TIME.
THE
MOON'S BIQHT A8CBN8ION AND DECLINATION.
Hour.
Rif ht AiceMlon.
DiflT
fbrlm.
DeeUnatkm.
DIff
Ibrlm.
Hour.
RifhtAmoilon.
DIflr.
Ibrlm.
DeellMUkm.
DiflT.
fori m.
FRI
DAY
21.
SUNDAY
23.
h. in. •.
■• 1
0 1 ff
n
h. m. iL
•.
O f M
H
0
19 58 45.82
S.6ia9
S.25 54 1.4
0.000
0
22 0 8.64
94993
S.17 21 35.0
14,143
1
20 1 22.55
%fim
25 47 15.1
OJOO
1
22 2 33.83
9.4174
17 7 22.9
14.300
2
20 3 59.15
9.0068
25 40 17.9
70)46
2
22 4 58.73
9.4136
16 53 3.8
14476
3
20 6 35.62
94006
25 33 9.7
7.997
3
22 7 23.34
9.4078
16 38 37.9 14468 II
4
20 9 11.94
9J040
25 25 50.7
7406
4
22 9 47.67
9.4000
16 24 5.2
14400
5
20 11 48.10
9^15
25 18 20.8
7467
6
22 12 11.71
94063
16 9 26.0
14.706
6
20 14 24.11
9.0068
25 10 40.2
7.706
6
22 14 35.47
94006
15 54 40.2
14416
7
20 16 59.96
9.0000
25 2 48.9
7.9tt
7
22 16 58.94
94869
15 39 48.0
14430
8
20 19 35.64
9.0001
24 54 47.0
t.190
8
22 19 22.14
94619
16 24 49.7
16496
9
20 22 11.15
9.0003
24 46 34.4
8.907
9
22 21 45.05
94796
15 9 45.1
16.197
10
20 24 46.47
9J079
24 38 11.3
8473
10
22 24 7.68
94749
14 64 34.5
10497
11
20 27 21.60
9J600
24 29 37.8
8.047
11
22 26 30.04
94700
14 39 18.0
16434
12
20 29 56.53
9.0600
24 20 53.8
8.890
12
22 28 52.13
94066
14 23 55.7
16419
13
20 32 31.25
%mo
24 1159.4
8.090
13
22 31 13.95
94013
14 8 27.7
16413
14
20 35 5.77
9.0700
24 2 54.6
9.100
14
22 33 35.50
94606
13 52 54.3
16408
16
20 37 40.07
9.0700
23 53 39.7
OJOS
15
22 35 56.78
94036
13 37 15.4
16400
16
20 40 14.16
9.0060
23 44 14.6
040S
16
22 38 17.80
94463
13 2131.2
16.780
17
20 42 48.03
94090
23 34 39.4
9.071
17
22 40 38.57
94440
13 5 41.8
16407
18
20 45 21.66
9.0060
23 24 54.1
0.687
18
22 42 59.07
94097
12 49 47.3
16408
19
20 47 55.06
9.00«7
23 14 58.9
10X03
19
22 45 19.32
94064
12 33 47.8
10400
90
20 50 28.23
94006
23 4 53.8
10.107
20
22 47 39.31
94019
12 17 43.6
10.114
21
20 53 1.16
94408
22 54 38.9
10400
21
22 49 59.05
94970
12 1 34.6
10.109
22
20 55 33.85
94497
22 44 14.3
10493
22
22 52 18.55
94998
1145 21.0
10.908
23
20 58 6.28
94060
&22 33 40.0
10469
23
22 64 37.80
94168
&1129 3.1
10487
SATl
JRDA^
r 22.
MOI
^DAY
24.
0
21 0 38.47
94040
S.22 22 56.2
10410
0
22 66 66.81
94148
Sll 12 40.7
1O406
1
21 3 10.40
94000
22 12 2.9
10400
1
22 59 16.58
94100
10 56 14.1
10477
2
21 5 42.07
94M7
22 1 0.3
11.139
2
23 1 34.12
94070
10 39 43.5
10.044
3
21 8 13.48
94910
2149 48.3
11.977
3
23 3 52.42
94089
10 23 8.9! 10410
4
21 10 44.62
94160
2138 27.1
11400
4
23 6 10.50
94996
10 6 30.4 10473
5
21 13 15.50
94130
21 26 56.9
11463
5
23 8 28.35
9.9968
0 49 48.3 10.703
6
21 15 46.10
94079
21 15 17.5
11.709
6
23 10 45.99
94933
9 33 2.6 10.790
7
21 18 16.43
940Sf3
21 3 29.2
11460
7
23 13 3.41
9.9686
9 16 13.4
10447
8
21 20 46.48
9.4965
20 51 32.0
19436
8
23 15 20.62
9.9801
8 59 20.9
10403
9
21 23 16.25
94938
20 39 26.1
19.169
9
23 17 37.62
94817
8 42 25.2
10466
10
21 25 45.74
94699
20 27 11.5
10418
10
23 19 54.42
94783
8 25 26.4
17406
11
21 28 14.96
94640
20 14 48.4
19467
11
23 22 11.01
9.9760
8 8 24.6
17463
12
21 30 43.89
94798
20 2 16 8
19409
12
23 24 27.41
9.9717
7 51 20.0
17.100
13
21 33 12.54
9.47fiO
19 49 36.8
19.706
13
23 26 43.61
94066
7 34 12.7
17.144
14
21 35 40.90
94703
19 36 48.0
19409
14
23 28 59.62
9.3001
7 17 2.8
17.166
15
21 38 8.97
94064
19 23 52.1
10406
15
23 31 15.44
9.9034
6 69 50.4
17.936
16
21 40 36.76
94000
19 10 47.6
10.140
16
23 33 31.08
94808
6 42 35.7
17.368
17
21 43 4.26
94668
18 57 35.2
18.fJ8
17
23 35 46.55
9.3603
6 25 18.8
17400
18
21 45 31.47
94610
18 44 14.9
10403
18
23 38 1.85
9.3686
6 7 59.7
17486
19
21 47 58.39
94403
18 30 46.9
10499
19
23 40 16.98
94006
5 50 38.7
17460
20
21 50 25.02
94414
18 17 11.4
10406
20
23 42 31.96
9.94»a
6 33 15.8
17490
21
21 52 51.36
94000
18 3 28.3
18.780
21
23 44 46.77
9.9160
5 15 51.2
17499
22
21 55 17.41
94018
17 49 37.8
10403 22
23 47 1.43
9.9400
4 58 25.0
n448
23
21 57 43.17
94970
17 .35 40.0
14438 23
23 49 15.94
9.9406
4 40 57.4
17479
24
22 0 8.64
94£t9
& 17 21 36.0
14.149 24
23 51 30.30
9.3061
& 4 23 28.4
17400
18
138
SEPTEMBER, 1855.
IX,
r
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AweMioo.
Diffl
fbrlm.
DecUnatkm.
Diff.
furlm
Elour.
Right AacflMkm.
Diff.
forlm.
DecUmtioD.
DMT.
forlm.
TUESDAY
25.
THURSDAY 27.
h. m. a.
•.
O 1 H
N
h. m. •.
8.
O 1 If
«
0
23 51 30.30
2.2881
& 4 23 28.4
17.498
0
1 37 35.80
2.2103
N. 9 23 40.6
16356
1
23 53 44.51
2.2S66
4 5 58.2
17.513
1
1 39 48.45
3.3114
9 39 63.7
16.185
2
23 55 58.59
2.238A
3 48 27.0
17.630
2
1 42 1.16
3.3135
9 56 2.6
16.118
3
23 58 12.53
2.2818
3 30 64.7
17.646
3
1 44 13.94
3.3187
10 12 7.2
16340
4
0 0 26.34
2.2292
3 13 21.6
17.688
4
1 46 26.79
33160
10 28 7.4
15306
5
0 2 40.03
2.2272
2 55 47.7
17.570
6
1 48 39.73
3.2168
10 44 3.1
16390
6
0 4 53.60
2.22S3
2 38 13.2
17.680
6
1 60 52.74
3.3177
10 69 64.2
16313
7
0 7 7.06
2.2284
2 20 38.1
17.to8
7
1 53 5.84
33191
11 16 40.6
16.783
8
0 9 20.41
2.221A
2 3 2.7
17.698
8
1 65 19.03
3.3306
113122.1
16390
9
0 11 33.65
2.2198
1 45 27.0
17.697
9
1 67 32.31
3.3320
1146 68.8
16.660
10
0 13 46.79
2.2188
127 51.2
17.697
10
1 69 45.68
3.3336
12 2 30.5
16.487
11
0 15 69.84
2.2168
1 10 15.4
17JJ97
11
2 1 69.15
3.3363
12 17 57.2
16.403
12
0 18 12.80
2.2158
0 62 39.6
17.696
12
2 4 12.72
33270
12 33 18.7
16316
13
0 20 25.66
2.2188
0 35 4.0
17.690
13
2 6 26.39
33288
12 48 35.0
16.327 1
14
0 22 38.45
2.2123
S. 0 17 28.8
17.582
14
2 8 40.17
3.3305
13 3 45.9
16.188 1
15
0 24 51.15
2.2110
J*. 0 0 5.9
17.573
15
2 10 54.05
3.3833
13 18 51.6
16347
16
0 27 3.78
2.2099
0 17 40.1
17.663
16
2 13 8.04
3.3841
13 33 61.6
14366
17
0 29 16.35
2.2068
0 36 13.6
17.661
17
2 16 22.14
33800
13 48 46.1
14300
18
0 31 28.85
2.2078
0 62 46.3
I7.6r
18
2 17 36.36
3.3880
14 3 34.9
14.765
19
0 33 41.29
2.2009
1 10 18.1
17.690
19
2 19 60.70
3.3400
14 18 17.9
14389
20
0 35 53.68
2.2000
1 27 48.8
17.608
20
2 22 5.15
3.3420
14 32 65.1
14371
21
0 38 6.01
2.2062
1 45 18.5
17.488
21
2 24 19.73
3.3440
14 47 26.4
14.473
22
0 40 18.30
2.2045
2 2 46.9
17.461
22
2 26 34.43
33461
15 151.7
14373
23
0 42 30.56
WEDl
3.2088
N. 2 20 13.9
\Y 26.
17.487
23
2 28 49.26
FR
33482
IDAY
N.15 16 10.9
28.
14.270
0
0 44 42.76
2.2082
N. 2 37 39.4
17.413
0
2 31 4.22
3.3508
N.15 30 24.0
14.166
1
0 46 54.93
2.2027
2 55 3.3
17.885
1
2 33 19.30
3.3524
16 44 30.8
143S0
2
0 49 7.08
2.2022
3 12 25.4
17.866
2
2 36 34.52
23546
15 68 31.3
13364
3
0 51 19.20
2.2018
3 29 45.8
17.323
3
2 37 49.86
2.2569
16 12 26.4
18347
4
0 53 31.30
3.2016
3 47 4.2
17.290
4
2 40 6.34
3.2692
16 26 13.0
18.739
5
0 65 43.39
3.2018
4 4 20.6
17.265
6
2 42 20.96
3.2615
16 39 64.1
18380
6
0 57 66.47
3.2012
4 2134.8
17.218
6
2 44 36.72
3.3638
16 63 28.6
18319
7
1 0 7.56
2.2012
4 38 46.8
n.l80
7
2 46 62.62
3.3661
17 6 56.4
13.407
8
1 2 19.62
2.2012
4 55 56.3
17.140
8
2 49 8.65
3.3086
17 20 17.4
13.298
9
1 4 31.70
2.2018
6 13 3.4
17.097
9
2 61 24.83
3.2(708
17 33 31.6
18.178
10
1 6 43.78
3.2016
6 30 7.9
nxM
10
2 53 41.15
33781
17 46 38.9
18363
11
1 8 65.87
2.2017
5 47 9.7
17U»7
11
2 66 57.60
3.2766
17 69 39.1
13346
12
1 11 7.97
2.2019
6 4 8.7
16.960
12
2 58 14.20
3.2779
18 12 32.4
13328
13
1 13 20.09
2.3022
6 21 4.8
16.910
13
3 0 30.94
3.2808
18 26 18.6
13.709
14
1 15 32.23
3.3037
6 37 67.9
16.866
14
3 2 47.83
3.3837
18 37 57.6
13.580
15
1 17 44.40
3.2083
6 64 47.9
16.805
16
3 6 4.86
3.3861
18 50 29.3
13.468
16
1 19 56.60
2.2087
7 1134.7
16.762
16
3 7 22.04
3.3876
19 2 53.7
13345
17
1 22 8.84
2.2042
7 28 18.1
16.095
17
3 9 39.36
33899
19 15 10.7
13333
18
124 21.11
2.2048
7 44 58.1
16.687
18
3 11 56.83
3.3938
19 27 20.3
13366
19
1 26 33.43
3.2065
8 134.6
16.678
19
3 14 14.44
3.3918
19 39 22.4
11373
20
1 28 45.79
2.2064
8 18 7.5
16.617
20
3 16 32.20
33978
19 61 16.8
11346
21
1 30 58.21
3.2073
8 34 36.6
16.453
21
3 18 60.11
3.2997
20 3 3.7
11.717
22
1 33 10.68
2.2083
8 51 1.9
16.888
22
3 21 8.16
3.8031
20 14 42.9
11388
23
1 35 23.21
2.2093
9 7 23.2
16.822
23
3 23 26.36
33046
20 26 14.3
11.456
24
1 37 35.80
3.3108
N. 9 23 40.5
16.355
24
3 25 44.70
33070
N.20 37 37.9
11328
X.
SEPTEMBER, 1855.
139
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AflOtoflkxt
mm
forlm.
DecUnatkHi.
DMT.
forlm.
Hoar.
Right AKradoQ.
DiflT.
forlm.
Declinuion.
Diff.
forlm.
SATURDAY 29.
SUNDAY
30.
h. m. &
■.
O 1 M
11
h. m. •.
9.
O 1 u
N
0
3 26 44.70
OMtO
N.20 37 37.9
U.8'28
0
4 21 45.12
3.8673
N.24 29 52.4
7.955
1
3 28 3.19
2.8098
20 48 53.7
11.197
1
4 24 6.60
3.8588
24 37 45.2
7.807
2
3 30 21.82
2.8117
21 0 1.6
1L065
2
4 26 28.18
3.8604
24 45 29.1
7.656
3
3 32 40.59
S.8140
21 11 1.5
lOJttS
3
4 28 49.85
3.8619
24 53 4.1
7.508
4
3 34 59.50
2Jim
21 21 53.4
10.796
4
4 31 11.61
3.8688
25 0 30.1
7.858
5
3 37 18.56
3JI87
21 32 37.2
10.668
5
4 33 33.44
3.8647
25 7 47.1
7.307
6
3 39 37.75
3.8310
21 43 12.9
10.537
6
4 35 55.36
3.8660
25 14 55.0
74)56
7
3 41 57.08
S.8988
21 53 40.4
10.890
7
4 38 17.35
3J673
25 21 53.8
6.905
8
3 44 16.55
3.8386
22 3 59.6
10.363
8
4 40 39.42
3.86BB
25 28 43.6
6.764
9
3 46 36.16
3.8370
22 14 10.6
10.118
9
4 43 1.55
3.8694
25 35 24.2
6.603
10
3 48 55.90
3.8801
22 24 13.2
9.978
10
4 45 23.75
3J705
25 41 55.7
6U50
11
3 51 15.78
3.8833
22 34 7.4
9.888
11
4 47 46.01
3J715
25 48 18.1
6.397
12
3 53 35.78
3.8845
22 43 53.2
9.693
12
4 50 8.33
3.8734
25 54 31.3
6.148
13
3 55 55.91
3.8808
22 53 30.6
9.558
13
4 52 30.70
3.8783
26 0 35.3
5.990
14
3 58 16.16
3.8887
23 2 59.5
9.413
14
4 54 53.11
3.9789
26 6 30.1
5.887
15
4 0 36.54
3.8407
23 12 19.9
9.369
15
4 57 15.57
3J746
26 12 15.7
5.688
16
4 2 57.04
3.8437
23 21 31.7
9.135
16
4 59 38.07
3.8753
26 17 52.1
5.599
17
4 6 17.66
3JM47
23 30 34.9
8.980
17
5 2 0.60
3^756
26 23 19.2
5.875
18
4 7 38.40
3.8406
23 39 29.4
8.835
18
5 4 23.17
3.8768
26 28 37.1
6.390
19
4 9 59.25
3JM85
23 48 15.2
8.690
19
5 6 45.76
3.8767
26 33 45.7
54)65
20
4 12 20.21
3.8M4
23 56 52.2
8.545
20
6 9 8.37
3.8770
26 38 45.0
4.910
21
4 14 41.28
3.8S33
24 5 20.5
8.396
21
5 11 31.00
3J773
26 43 35.0
4.755
22
4 17 2.46
3.8480
24 13 40.0
8.350
22
5 13 53.64
3.8n4
26 48 15.7
44101
23
4 19 23.74
3.8656
24 21 50.6
8.103
23
5 16 16.28
3.3775
26 52 47.2
4.447
24
4 21 45.12
3.3573
N.24 29 52.4
7.056
24
5 18 38.93
3.8n4
N26 57 9.4
4.393
PHASES
OF TH]
E MOON.
Day. h.
m.
. .
. . 2 20
25.1
# New Moon, .
.
. . 10 22
53.9
3> First Quarter,
. .
. . 18 19
2.4
O Full Moon, .
. . .
. . 25 9
26.4
Day.
h.
<C Apogee, .
. • • •
. . . 9
8.4
<C Perigee, .
. . . 24
7.8
14:0
SEPTEJMTBER, 1855.
XI.
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
^^
Sur'aName
P. L.
P.L.
PL.
P.L.
M
and
Noon.
of
nih.
of
Vlh.
of
IXh.
of
pMiiioQ.
Diff.
Diff.
Diff
Diff
O 1 U
O 1 M
O.I II
O 1 *
1
Jupiter W.
79 43 44
9443
81 25 17
9403
83 7 24
9480
84 49 6
9498
Fomalhaut W.
75 30 2
9609
77 7 23
3080
78 44 22
9703
80 20 59
9718
a Pegasi W.
56 20 18
aooo
57 50 31
8000
59 20 44
8001
60 50 55
8006
Saturn E.
42 40 50
3540
41 0 32
3001
39 20 44
3663
37 4126
9006
Pollux E.
65 23 42
94T7
63 41 56
3490
62 0 36
3614
60 19 42
8083
Man E.
74 20 48
dOM
72 44 2
3716
71 7 43
9736
69 31 50
9764
Sun E.
112 33 25
9911
110 59 12
3831
109 25 24
3661
107 52 2
9870
2
Jupiter W.
93 11 16
9068
9450 28
3604
96 29 17
3831
98 7 43
9618
Fomalhaut W.
88 18 36
9803
89 53 0
3030
91 27 2
3837
93 0 42
9866
a Pegaai W.
68 20 28
1084
69 49 58
3013
71 19 17
3060
72 48 28
8000
aAnetia W.
24 42 55
9808
26 13 10
3973
27 43 56
3066
29 15 4
9044
Saturn E.
29 32 39
979ft
27 56 32
37M
26 20 59
3778
24 46 3
3810
Pollux E.
52 1 36
9033
50 23 12
3040
48 45 12
9867
47 7 35
9076
Mara E.
61 38 42
980O
60 5 19
3600
58 32 20
9887
56 59 45
9006
Sun E.
100 11 21
9806
98 40 25
3884
97 9 52
3009
95 39 42
3090
3
Jupiter W.
106 14 22
9718
107 50 38
9783
109 26 35
9747
111 2 12
9709
Foroalbaut W.
100 43 23
9042
102 14 49
3008
103 45 54
9877
105 16 36
9908
a Pegasi W.
80 11 1
9118
81 38 49
8130
83 6 23
3141
84 33 43
3164
aAneti. W.
36 53 6
9830
38 24 47
3883
39 56 25
9886
4128 0
9830 ;
Pollux E.
39 5 4
9705
37 29 37
9771
35 54 31
9766
34 19 45
9601
Mara E.
49 22 25
3883
47 52 3
8000
46 22 1
8096
44 52 20
3041
Sun E.
88 14 20
ilOO
86 46 18
8133
85 18 36
3138
83 51 13
3163
4
a Pegasi W.
9146 31
9318
93 12 19
8983
94 37 50
8946
96 3 5
8900
aArietis W.
49 3 52
3070
50 34 36
3081
52 5 12
3888
53 35 40
9886 ,
Aldebaran W.
19 21 35
8971
20 46 20
8383
22 1151
3188
23 38 3
3174 ,
Mara E.
37 28 47
3119
36 1 1
8186
34 33 34
3160
33 6 25
3104
Sun E.
70 38 49
8930
75 13 11
8940
73 47 49
8964
72 22 42
8918
5
a Arietis W.
61 5 38
8089
62 35 11
3080
64 436
8048
65 33 52
3008
Aldebaran W.
30 54 26
8110
32 22 16
8110
33 50 13
3107
35 18 14
8007
Mare E.
25 55 7
8349
24 29 48
8968
23 4 47
8316
21 40 8
8904
Sun E.
65 20 39
8829
63 56 53
8889
62 33 19
83a
61 9 57
8869
6
a Arietis W.
72 58 16
8083
74 26 47
8087
75 55 12
8083
77 23 31
3007
Aldebaran W.
42 38 26
8108
44 626
8100
45 34 25
8110
47 2 22
3119
Saturn W.
21 12 54
8178
22 39 36
3103
24 630
8164
25 33 34
3149
Sun E.
54 15 40
8888
52 53 16
8401
51 31 1
8408
50 854
8416 ,
7
a Arietis W.
84 43 44
3118
86 1132
8130
87 39 17
3194
89 6 57
3197
Aldebaran W.
54 21 40
8110
55 49 26
8190
57 17 11
3193
58 44 54
3198
Saturn W.
3250 2
8188
34 17 26
3180
35 44 52
3186
37 12 19
3184
Sun £.
43 20 5
8444
41 58 38
8440
40 37 17
8464
39 16 1
8408
13
Sun W.
22 33 41
8400
23 55 58
8888
26 18 28
8878
26 41 12
8880 1
Antares E.
5529 6
9978
53 58 26
9074
52 27 41
3888
50 56 49| 9008 il
a Aqnilv E.
103 55 32
8071
102 41 43
8860
101 27 37
8040
100 13 16
8880
14
Sun W
33 37 54
8814
35 1 49
8806
36 25 55
8304
37 50 13
8988
AnUres E.
43 20 28; wm
41 48 46
9033
40 16 56 9810
38 44 57j 3800
1
a Aquil« E.
93 58 5 tw
92 42 28
3706
91 26 42 8740
90 10 47i 8741
XII.
SEPTEMBER, 1855.
141
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1^
Sur^f Name
P. L.
P. L.
P. L.
P. L.
'5|
1^
and
Midnight.
of
XVh.
of
XVIIP>.
of
XXlh.
of
PoriUon.
DiC
Diffl
DiC
Dili:
1
Jupiter W.
O 1 N
86 30 23
3517
O 1 II
88 11 11
3684
o 1 u
89 51 37
3561
O 1 H
91 31 39
3569
Fomalhant W.
81 57 15
27S6
83 33 9
3763
85 8 40
3769
86 43 49
3785
a Pe^isi W.
62 21 2
sooo
63 51 4
3014
65 21 0
8090
66 50 48
80a6
Saturn E.
36 2 38
3098
34 24 21
3661
32 46 35
3074
31 9 20
3690
Pollux E.
58 39 15
9fi6a
56 59 14
3660
55 19 37
3387
53 40 24
3606
Mars E.
67 56 22
3771
66 21 19
3798
64 46 42
3813
63 12 30
3881
Sun E.
106 19 5
3889
104 46 32
3909
103 14 24
3937
101 42 40
39C7
3
Jupiter W.
99 45 47
3606
101 23 28
3070
103 0 48
3687
104 37 45
3703
Fomalbattt W.
94 33 59
887»
96 6 53
3890
97 39 25
3907
99 11 35
3934
a Pegasi W.
74 17 26
8073
75 46 10
3088
77 14 40
8U93
78 42 58
8106
a Arietis W.
30 46 27
30Bd
32 18 2
3981
33 49 41
3936
35 21 24
3999
Saturn E.
23 11 48
3848
21 38 16
3879
20 5 30
3919
18 33 35
3967
Pollux E.
45 30 21
3091
43 53 29
8707
42 16 59
97M
40 40 51
9740
Mars E.
55 27 32
3903
53 55 42
3940
52 24 14
3956
50 53 9
3976
Sun £.
94 954
8089
92 40 29
8066
91 11 25
8078
89 42 42
8090
3
Jupiter W.
119 37 30
3Tn
114 12 28
3790
115 47 9
3804
117 21 32
3617
Fomalhaut W.
106 46 57
3011
108 16 56
80Q6
109 46 34
8046
111 15 50
8068
a Peyaai W.
86 0 47
8107
87 27 36
3179
88 54 10
3193
90 20 28
8306
a Arietis W.
42 59 29
3946
44 30 51
3964
46 2 2
3963
47 33 1
3969
Pollux E.
32 45 19
3816
31 11 12
9881
29 37 24
3346
28 3 54
3868
Mars E.
43 22 58
3066
41 53 57
8078
40 25 15
3069
38 56 52
8104
Sum E.
8224 8
8109
80 57 22
8184
79 30 56
3196
78 4 43
8318
4
a Pegasi W.
a Arietis W.
9728 5
8373
98 52 49
8386
100 17 17
3300
101 41 29
8818
55 5 59
8008
56 36 8
3011
58 6 7
8018
59 35 57
8036
Aldebarao W.
25 4 43
8108
26 3148
8140
27 59 9
8139
29 26 43
3133
Mars E.
31 39 33
8179
30 12 59
8194
28 46 43
8310
27 20 46
8336
Sun £.
70 57 50
8377
69 33 12
8369
68 8 48
3800
66 44 37
8813
5
aArielis W.
67 8 0
3060
68 32 0
8066
70 0 53
8071
7129 38
3077
Aldebaran W.
36 46 15
8106
38 14 18
8106
39 42 21
8106
41 10 24
8106
Mars E.
^0 15 50
8816
18 51 56
3340
17 28 31
8869
16 5 39
8400
Sun E.
59 46 46
8801
58 23 45
8370
57 0 54
3878
55 38 12
3886
6
a Arietis W.
78 51 44
8103
80 19 51
8106
81 47 54
8110
83 15 51
8114
Aldebaran W.
48 30 17
8114
49 58 10
8114
5126 2
3116
52 53 52
8118
Saturn W.
27 0 44
8140
28 27 58
8143
29 55 17
8189
31 22 39
8188
Sun E.
48 46 55
3493
47 25 3
3437
46 3 17
3433
44 41 38
843b
7
<f Arietis W.
90 34 34
8181
92 2 6
8133
93 29 36
3134
94 57 4
8186
Aldebaran W.
60 12 36
8134
6140 17
8134
63 7 57
8136
64 35 35
8136
Saturn W.
38 39 47
8134
40 7 15
31M
41 34 43
3133
43 2 12
8188
Sum E.
37 54 50
8468
36 33 45
8467
35 12 44
8471
33 51 48
8476
)3
Sun W.
28 4 8
8864
29 27 17
8844
30 50 38
3834
32 14 10
8894
Antares E.
49 25 49
3966
47 54 41
3960
46 23 25
3943
44 52 1
3986
a Aqail9 £.
98 58 40
8813
97 43 50
8799
96 28 47
8788
95 13 32
8776
14
Sun W.
39 14 42
8376
40 39 23
8366
42 4 15
8365
43 29 19
8344
Antares E.
37 12 49
3901
35 40 31
38B8
34 8 3
3864
32 35 24
38n
L==
a Aquilv E.
88 54 43
8784
87 38 32
8738
86 22 15
8733
85 5 52
8718
142
SEPl'EMBER, 1855.
XIII.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
1^
15
Sur'i Name
and
PmIUoq.
Noon.
P. L.
of
Diff.
3334
3800
S714
3836
nib.
P. U
of
DiflT.
8394
9809
8719
9997
Vlh.
PL.
of
Dur.
IXb.
P. L.
of
Diff
Sum W.
AoUres E.
a Aquilv E.
Jupiter E.
O 1 II
44 54 36
31 3 36
83 49 34
107 36 35
O 1 u
46 30 4
39 39 38
83 33 53
106 3 54
O 1 1*
47 45 45
37 56 30
81 16 18
104 39 1
8918
9854
8710
9818
O 1 N
49 11 39
36 33 13
79 59 43
103 54 57
890O
9810
8700
9809
16
Sun W.
a Aqailv E.
Jupiter E.
56 34 24
73 36 60
95 127
314A
rm
S7flO
57 51 39
73 30 36
93 36 5
8188
8737
9748
59 19 8
71 4 8
9150 39
8191
8785
3788
60 46 53
69 47 58
90 14 40
8109
87a
3737
17
Sum W.
a Aquilv E.
Jupiter E.
Fomalhaat E.
a Pegasi E.
68 9 35
63 30 9
83 11 47
8850 0
109 1 40
SOU
8819
9669
9876
8099
69 38 45
63 15 36
80 34 35
87 17 10
107 33 31
8099
8840
96»7
9868
8078
71 8 33
61 1 5
78 56 47
8544 4
106 4 38
8015
8864
90M
9851
8058
73 38 16
59 47 9
77 18 53
84 10 43
104 35 31
8001
8890
9089
80O4
18
Sum W.
a Aquils E.
Jupiter E.
Fomalhaat E.
a Pegasi E.
80 13 30
53 45 47
69 4 50
76 30 4
97 4 15
9997
4091
9A64
9181
9947
81 44 5
53 35 37
67 35 6
74 45 11
95 33 56
9911
4147
9561
3769
9931
83 16 10
51 36 31
65 45 4
73 10 3
94 1 16
9695
4910
9538
3759
9914
84 48 35
50 18 4
64 4 43
71 34 41
98 89 15
9879
4379
3594
3740
3600
19
Sum W.
Antares W.
Jupiter E.
Fomalhaat E.
a Pegasi E.
93 35 49
30 45 54
55 38 1
63 34 33
84 44 38
9798
9489
9461
9709
9898
94 10 19
33 37 33
53 55 40
61 57 56
83 10 37
3T89
9464
9487
9095
9816
95 45 10
34 9 37
53 13 58
60 31 9
81 36 30
9765
9447
9498
9187
9004
97 80 84
85 53 5
50 39 56
58 44 13
80 8 7
3749
sai
9«0O
3601
3790
30
Sum W.
Aouree W.
Jupiter E.
Fomalhaat E.
a Pegasi E.
105 33 0
34 30 8
41 49 35
50 37 41
73 6 43
9006
984f
3837
9069
9740
106 59 36
36 14 55
40 4 39
49 0 30
70 31 3
9649
3884
3894
3073
3789
108 37 14
38 0 5
38 19 4
47 83 3
68 55 15
9088
3819
3811
3675
3788
110 15 84
39 45 37
36 33 80
45 45 50
07 19 19
sow
3800
9910
3001
3739
31
Sum W.
Antares W.
Jupiter E.
Fomalhaat E.
a Pegasi E.
a Arietis E.
118 31 44
48 39 3
37 40 10
37 43 33
59 18 55
99 47 53
9538
99«»
3919
9777
9731
3990
130 13 5
50 36 46
35 53 45
36 8 35
57 43 56
98 1 38
3598
9916
9985
9814
7788
9975
131 53 46
53 14 51
84 5 9
34 34 15
56 7 6
96 15 8
3608
3300
3399
3855
3147
3900
183 33 48
54 3 18
88 17 84
33 0 59
54 3138
94 88 4
3104
3106
8395
3156
98C7
39
AnUres W.
a Arietis E.
Aldebaran E.
63 10 43
85 38 34
115 48 39
9198
9184
9176
65 1 5
83 39 33
113 59 35
9119
9174
9164
66 51 46
81 50 36
113 10 3
9101
3100
9151
68 43 43
80 1 3
110 80 81
309O
9150
9180
33
AnUres W.
a Aquils W.
a Arietis E.
Aldebaran E.
Satom E.
78 1 38
43 38 17
70 50 53
101 7 48
133 31 0
9045
4484
9114
9090
9089
79 53 53
43 30 56
69 0 15
99 16 33
131 39 33
9080
4899
9107
9071
8146 97
44 36 18
67 9 37
9795 8
119 37 53
4384
9105
3076
3006
83 39 11
45 44 13
65 18 36
95 33 33
117 40 1
3090
60S5
9100
30TI
30»
94
AnUres W.
aAquUs W.
Jupiter W.
93 4 55
51 55 39
17 37 43
9007
8646
9078
94 58 19
53 15 13
19 39 33
9005
8469
9065
96 51 45
54 36 11
31 81 30
3006
8400
9049
98 45 18
55 58 88
83 13 60
3004
8880
XIV.
SEPTEMBER, 1855.
143
GREENWICH MEAN TIME.
LUNAR DISTANCES.
5^
M
15
Star's Name
and
PMiUoo.
Midnight.
P. L.
of
XVh.
P. L.
of
Diff.
xvmh.
P. U
of
DiflT.
3109
9819
3718
9779
XXIh.
P. L.
of
Diif.
Sun W.
Antares E.
a AquilflB E.
Jupiter E.
o 1 n
50 37 45
24 49 43
78 43 5
101 20 41
S199
98S6
8709
S800
O 1 It
52 4 4
23 16 2
77 26 28
99 46 12
8180
9898
8710
9788
O 1 H
63 30 37
21 42 10
76 9 52
98 11 30
O 1 H
54 57 23
20 8 7
74 63 19
96 36 35
8167
9811
8717
9709
16
Sun W.
a Aquiln E.
Jupiter E.
62 14 51
68 31 58
88 38 36
8096
mio
63 43 6
67 16 9
87 2 17
8083
8768
9704
65 11 36
66 0 33
85 25 43
8070
8789
9699
66 40 22
64 46 12
83 48 53
8056
3799
9681
17
Sun W.
a Aquiln E.
Jupiter E.
Fomalhaut E.
a Pegasi E.
74 8 28
58 33 42
75 40 40
82 37 5
103 6 0
9980
8933
9618
9890
8016
75 38 58
67 20 46
74 2 10
81 3 13
10136 6
9979
8959
9606
9815
9997
77 9 46
66 8 26
72 23 22
79 29 6
100 5 50
9967
8999
9591
9804
9981
78 40 53
64 66 46
70 44 15
77 54 42
98 36 13
9941
4049
9678
9799
9966
18
Sun W.
a Aquile E.
Jupiter E.
Fomalhaut E.
a Pegasi E.
86 21 21
49 10 52
62 24 3
69 59 5
90 56 55
9688
4867
9610
S788
9884
87 54 27
48 4 62
60 43 3
68 23 16
89 24 16
9848
4444
9495
97'i9
9868
89 27 53
47 0 10
59 143
66 47 14
87 51 18
9881
4649
9480
9719
9856
91 1 40
46 66 66
67 20 2
66 10 69
86 18 2
9816
4650
9466
9710
9849
19
Sun W.
Antares W.
Jupiter E.
Fomalhaut E.
a Pegasi E.
98 55 59
27 3i55
48 46 33
57 7 6
t8 27 29
97»
S4I6
9894
96t5
arsa
100 31 56
29 18 8
47 2 49
55 29 52
76 52 37
9716
9899
9880
9669
9771
102 8 15
31 1 44
45 18 45
53 52 31
75 17 31
9699
9889
9866
9666
9761
103 44 66
32 46 44
43 34 20
52 15 5
73 42 12
9089
9866
9361
9667
9758
20
Sun W.
Antares W.
Jupiter E.
Fomalhaut E.
a Pegasi E.
111 53 57
41 31 32
34 47 17
44 8 44
65 43 18
9601
9987
9986
9689
7790
113 32 61
43 17 61
33 0 66
42 31 60
64 7 13
9585
9971
9373
9709
97i5
115 12 7
45 4 33
31 14 17
40 65 17
62 31 6
9669
9956
9989
9799
9796
116 51 46
46 61 37
29 27 21
39 19 6
60 54 59
9668
2949
9961
9748
9797
21
Sun W.
Antares W.
Jupiter E.
Fomalhaut E.
a Pegasi E.
a Arietis E.
125 15 10
55 52 6
20 29 33
3128 46
52 56 3
92 40 47
9480
9178
9994
9079
9771
S988
126 56 61
57 41 16
18 41 41
29 57 68
51 20 57
90 53 9
9467
9159
2998
8000
9790
3991
128 38 61
59 30 46
16 63 66
28 28 69
49 46 16
89 5 13
9468
9146
9988
8174
9814
9908
130 21 10
61 20 34
16 6 24
27 2 19
48 12 6
il 16 57
9U1
9134
9968
3899
9880
9196
22
Antares W.
a Arietis E.
Aldebaran E.
70 33 58
78 1124
108 30 22
9077
9144
9198
72 25 31
76 21 32
106 40 6
9068
9137
9118
74 17 18
74 31 30
104 49 34
9061
9180
9109
76 9 17
72 41 17
102 58 48
9068
9193
9099
23
Antares W.
a Aquil© W.
a Arietis E.
Aldeharao E.
Saturn E.
85 32 4
46 54 28
63 27 41
93 41 48
115 53 59
9019
8068
9099
9064
9068
87 25 8
48 6 54
61 36 41
91 49 54
114 1 48
9016
8834
9099
9061
9048
89 18 18
49 21 21
59 46 40
89 67 54
112 9 29
9019
8797
9097
9066
9043
91 11 34
60 37 39
57 54 36
88 5 47
110 17 2
9000
8689
9099
9064
9080
24
Antares W.
a Aquilv W.
Jupiter W.
100 38 40
67 21 56
25 6 42
9006
8-289
9096
102 32 7
68 46 29
26 59 36
9006
8939
90»
104 25 33
60 12 0
28 52 34
90O7
8188
9019
106 18 57
61 38 23
30 45 38
9006
8140
9018
144
SEPTEMBER, 1855.
XV.
GREENWICH MEAN
TIME.
1
LUNAR DISTANCES. |
1^
Slar'f Namt
P. L
P. L.
P.L.
P. L.
^1
1^
and
Noon.
of
mh.
of
Vlh.
of
DO*.
of
Position.
Diir.
DiC
Oilf
Difll
91 U
34
a Arietis E.
O 1 u
56 8 35
9100
O 1 II
54 13 36
9108
O 1 II
52 21 41
9107
O f M
50 30 52
Aldebaran E.
86 13 37
9063
84 3133
9050
82 29 7
9048
80 36 48
9000
Saturn E.
106 94 38
9086
106 3150
9084
104 39 9
9088
103 46 36
9088
25
a Aquiln W.
63 5 33
SI 1ft
64 33 34
808ft
66 1 52
8000
67 30 53
8087
Jupiter W.
33 38 44
9019
34 31 48
9031
36 24 49
9094
38 17 46
9096
Fomalhaut W.
39 48 6
9090
31 33 8
9743
32 57 51
9678
34 35 0
9094
a Arietis E.
41 19 47
9197
39 30 39
9184
37 41 37
9904
35 53 15
9996
Aldebaran E.
71 15 57
9064
69 24 2
9070
67 32 17
%m
65 40 43
9085
Saturn E.
03 33 4
9049
9130 35
9046
89 38 12
9000
87 45 56
9067
S0
aAquiltt W.
75 132
997S
76 33 8
9067
78 3 59
9068
79 33 52
9068
Jnpiter W.
47 40 33
9061
49 33 33
9070
5134 17
9080
53 15 47
9000
Fomalhaut W.
43 55 9
9464
44 37 13
9450
46 19 37
948ft
48 2 22
9496
a Pegasi W.
38 56 44
4164
30 5 35
8061
31 17 43
9116
32 33 9
8029
Aldebaran E.
56 36 6
9185
54 36 0
9147
53 46 14
9168
50 56 49
9178
Saturn E.
78 37 16
9007
76 36 13
9107
74 45 33
9118
72 54 51
9190
Pollux E.
100 4 44
9068
98 19 55
9078
96 3133
9088
94 30 5
9100
97
aAquiltt W.
87 7 9
8006
88 37 16
8018
90 7 6
8088
91 36 38
80ftl
• Jupiter W.
69 38 56
916S
64 18 34
9167
66 7 51
9189
67 56 46
9107
Fomalhaut W.
56 37 29
9499
58 30 33
t496
60 3 30
948ft
61 46 15
94a
a Pegasi W.
Aldebaran E.
39 34 53
814ft
40 53 7
8000
43 30 39
8048
43 49 49 8004 1
41 56 14
9370
40 9 31
9309
38 33 30
9890
36 37 491 9M8
Saturn E.
63 46 53
9187
61 58 80
9919
60 10 11
9930
58 22 26 994ft
Pollux E.
85 18 17
9168
83 38 55
9178
81 39 54
9194
79 51 18 9310
Mars E.
110 36 40
9860
108 43 8
987ft
106 57 58
9801
105 14 10
9407
98
Jupiter W.
76 55 35
9379
78 41 55
9907
80 97 59
SSlft
83 13 37
9888
Fomalhaut W.
70 16 49
940ft
71 58 9
9500
73 39 10
9598
75 19 51
9ft88
a Pegasi W.
51 36 8
9604
53 58 35
9888
54 31 15
9876
56 4 5
9879
Saturn E.
49 30 0
988ft
47 44 52
98ftft
46 0 13
9875
44 16 3
9806
Pollux E.
70 54 15
9304
69 8 7
9811
67 23 34
9897
65 37 4
9844
Mars E.
96 41 3
9403
94 59 38
9ftll
93 18 40
9030
9138 7
9648
99
Jupiter W.
90 55 10
OtSft
93 38 9
9444
94 30 41
9463
96 2 46
9489
Fomalhaut W.
83 37 62
9631
85 16 19
9080
86 54 31
9667
88 31 59
967ft
a Pegasi W.
63 48 34
9883
65 21 15
9880
66 53 48
9807
68 26 11
9006
a Arietis W.
30 13 58
9966
21 44 26
9036
23 16 9
9807
24 48 44 9881 ,
Saturn E.
35 42 48, 3006
34 1 46
9638
32 21 18
9600
30 41 26| 90Sft
Pollux E.
56 57 51 34M
55 14 26
9456
53 32 14
9477
51 50 29, 9496
Mars E.
83 31 58
964ft
81 44 4
9066
80 6 37
9684
78 29 36 9704 1
Regulns E.
93 30 46
9440
91 48 31
9466
00 623
9187
88 24 51
9006
Sum E.
131 37 10
9767
129 51 59
9787
128 17 14
9808
126 42 56
9S86 '
30
Jupiter W.
104 36 34
9877
106 6 1
9fi0ft
107 45 3
96U
109 93 40
9889
Fomalhaut W.
96 33 48
9717
98 8 53i 9791
99 43 33
9811
101 17 46
9089
a Pegasi W.
76 4 50
906ft
77 35 471 9879
79 6 26
9008
80 36 48
8008
a Arietis W.
33 38 13
9601
34 12 38! 9604
35 47 1
9006
37 31 19
9618
Pollux E.
43 28 18
9300
41 49 9
9600
40 10 36
9897
38 33 8
98a
Mars E.
70 31 4
9803
68 56 39
9831
67 23 39, 9841
65 49 4
9880 1
Regulns E.
80 3 45
9500
78 24 49
9618
76 46 19, 9687
75 8 14
9BM *
Sun E.
n8 57 5l| »n
117 26 7 9»ui|
115 54 47i 9065
114 23 51
_r»j
XVI. SEPl'EMBER, 1855.
145
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1^
Star's Name
P. L.
P. L.
P. L.
P. L.
24
and
Midnight.
of
XVb.
of
xvmh.
of
XXIh.
of
PmIUoo.
DKT.
Dlff.
Dlff.
9180
Diffl
a Arietis E.
O 1 «
48 40 12
9190
O 1 M
46 49 43
9199
O 1 II
44 59 28
O 1 N
43 9 28
9151
Aldebaran E.
78 44 32
90A1
76 52 17
9053
75 0 6
9065
73 7 58
9060
Saturn E.
100 53 43
9033
99 1 0
9083
07 8 18
9085
95 15 39
9088
25
a Aquila W.
69 0 19
•018
70 30 9
8009
72 0 19
9000
73 30 44
9080
Jupiter W.
40 10 37
9039
42 3 21
9088
43 55 56
9045
45 48 20
9058
Fomalhaut W.
36 13 22
9^74
37 52 52
9547
39 32 58
9590
41 13 44
9499
a Arietis E.
34 5 25
39M
32 18 18
9986
30 31 58
9890
28 46 27
9861
Aldebaran E.
63 49 19
9009
61 58 8
9101
60 7 11
9118
58 16 31
9199
Saturn E.
85 53 50
908S
84 1 54
9070
82 10 9
9077
80 18 35
9087
26
a Aquil© W.
81 4 45
9919
82 35 33
9977
84 6 15
9984
85 36 48
9908
Jupiter W.
56 7 1
9101
56 57 58
9113
58 48 37
9196
60 38 57
9180
Fomalhaut W.
49 45 19
9495
51 28 18
9494
53 11 19
9499
54 54 23
9419
a Pegasi W.
Aldebaran E.
33 51 19
8500
35 11 53
8381
36 34 30
8988
37 58 55
8910
49 7 48
9194
47 19 12
9914
45 31 4
9983
43 43 25
9961
Saturn E.
71 4 36
9141
69 14 40
9154
67 25 3
9197
65 35 46
9189
Pollux E.
92 89 6
9119
90 48 25
9194
88 58 2
9187
87 7 59
9161
27
aAquil« W.
93 5 48
SOflO
94 34 35
8090
96 2 57
8119
97 30 52
8186
Jupiter W.
69 45 18
9919
71 33 27
9299
73 21 11
9946
75 8 30
9969
Fomalhaut W.
63 28 48
9451
65 11 10
9460
66 53 19
9479
68 35 12
9488
a Pegasi W.
Aldebaran E.
45 19 57
9971
46 50 46
9945
48 22 8
9998
49 53 58
9807
34 52 59
9378
33 8 53
9408
31 25 30
9440
29 42 52
9474
Saturn E.
56 35 5
9969
54 48 10
9980
53 1 41
9997
51 15 37
9815
Pollux E.
78 3 6
9996
76 15 17
9941
74 27 51
9906
72 40 50
9976
Mars E.
103 30 45
9493
101 47 43
9440
100 5 5
9467
98 22 51
9475
28
Jupiter W.
83 58 49
9361
85 43 34
9869
87 27 53
9888
89 1145
9407
Fomalhaut W.
77 Oil
9563
78 40 10
9560
80 19 47
9586
81 59 1
9608
a Pegasi W.
57 36 59
9879
59 9 55
9870
60 42 52
9678
62 15 46
9677
Saturn E.
42 33 22
9417
40 49 11
9489
39 6 32
9461
37 24 24
9484
Pollux E.
63 52 8
93ftt
62 7 41
9383
60 23 42
9409
58 40 11
9490
Mars E.
89 58 0
9568
88 18 21
9686
86 39 7
9606
85 0 19
9095
29
Jupiter W.
97 44 25
9601
99 25 37
9590
101 6 22
9580
102 46 41
9666
Fomalhaut W.
90 9 12
9694
91 46 0
9714
93 22 21
9788
04 58 17
9769
a Pegasi W.
69 58 22
9916
71 30 21
9937
73 2 6
9880
74 33 36
9961
aArieus W.
26 21 53
9840
27 55 29
9899
29 29 28
9808
31 3 46
9601
Saturn E.
29 2 11
9618
27 23 34
9643
25 45 37
9675
24 8 23
9710
Pollux E.
50 9 10
9515
48 28 17
9684
46 47 51
9558
45 7 52
9ff79
Mars E.
76 53 1
9793
75 16 52
3744
73 41 10
9768
72 5 54
9783
Regulus E.
86 43 45
9695
85 3 6
9543
83 22 53
9569
81 43 6
9661
Sun E.
125 9 4
9817
123 35 37
9887
122 2 36
9887
120 30 1
9907
30
Jupiter W.
HI I 52
9660
112 39 39
9697
114 17 3
9685
115 54 3
9708
Fomalhaut W.
102 51 32
9859
104 24 53
9878
105 57 46
9885
107 30 11
9916
a Pegasi W.
82 6 51
8099
83 36 36
8088
85 6 2
8059
86 35 10
8008
a Arietis W.
38 55 30
9819
40 29 32
9896
42 3 26
9884
43 37 10
9849
Pollux E.
36 54 14
9664
35 16 46
9683
33 39 43
9709
32 3 5
9719
Mars E.
64 15 54
9880
62 43 9
9898
61 10 47
9916
59 38 49
9005
Regulus E.
73 30 33
9673
71 53 17
9690
70 16 24
9707
68 39 54
9796
'
Sun E.
112 53 20
8005
111 23 13
8093
109 53 29
8(V19
108 24 8
8060
19
146
OCTOBER, 1855.
AT GREENWICH APPARENT
NOON.
i
i
1
THE SUN'S
SIdumI
Ttma
oTUw
SMiiidl-
wiwur
pMitng
tIM
Mcfid-
to be
eubtraeted
from
A^arent
10 12.64
10 31.70
10 50.46
Dur
for
llKHir.
s.
0.799
0.787
0.773
Apparent
Rifht A«c«Mloo.
DIff. for
Ibour.
iS^Mlion,
DUE
for
I hour.
58'.81
58.24
58.15
Sami-
diameur.
Mon.
Tues.
jWed.
1
2
3
h. m •.
12 28 22.66
12 32 0.09
12 35 37.83
9.058
9.071
9.064
O 1 II
S. 3 4 4.4
3 27 22.8
3 50 39.1
1^
16
16
f.49
1.76
2.03
64.36
64.40
64.44
iThur.
Fri.
Sat
1
4
5
6
12 39 15.92
12 42 54.38
12 46 33.22
9.099
9.114
9.129
4 13 52.9
4 37 3.8
5 0 11.5
58.04
57.91
57.76
16
16
16
2.30
2.57
2.85
64.49
64.54
64.60
11 8.87
11 26.93
11 44.59
0.758;
0.748
0.728
Sun.
Mon.
,Tueii.
7
8
9
12 50 12.45
12 53 52.10
12 57 32.19
9.146
9.163
9.181
5 23 15.6
, 5 46 15.6
6 9 11.2
57.59
57.41
57.22
16
16
16
3.12
3.40
3.67
64.66
64.72
64.79
12 1.87
12 18.72
12 35.14
1
0.711|
0.6941
0.676
Wed.
Thur.
|Fri.
10
11
12
13 1 12.71
13 4 53.70
13 8 35.18
9.199
9.218
9.238
6 32 2.1
6 54 47.7
7 17 27.7
1
57.01 16
56.79 16
56.551 16
3.94
4.22
4.49
64.86
64.93
65.00
12 51.12 0.657
13 6.64 0.638
13 21.67 0.618
Sat
Sun.
Mod.
13
14
15
13 12 17.16
13 15 59.63
13 19 42.64
9.259
9.280
9.308
7 40 1.9
8 2 29.6
8 24 50.5
56.19
56.02
55.73
16
16
16
4.77
5.05
5.33
65.07
65.15
65.23
13 36.21
13 50.24
14 3.75
0.598
0.576
0.553
Tues.
Wed.
Thur.
16
17
18
13 23 26.21
13 27 10.33
13 30 55.02
9.826
9.350
9.875
8 47 4.2
9 9 10.2
9 31 8.1
55.42
55.09
54.74
16
16
16
5.61
5.89
6.17
65.31
65.39
65.48
14 16.71
14 29.11
14 40.94
0.530
0.506
0 481
Fri.
Sat.
Sun.
1
19
20
21
13 34 40.29
13 38 26.17
13 42 12.67
9.400
9.427
9.454
9 52 57.7 54.88
10 14 38.6 54.01
10 36 10.3 58.62
16
16
16
6.45
6.73
7.00
65.57
65.66
65.75
14 52.18
15 2.82
15 12.86
0.456
0.430;
0.403:
1
Mon. 22
|Tue8.'23
Wed. 24
1
13 45 59.82
13 49 47.63
13 53 36.12
9.481
9.509
9.538
10 57 32.4 '58.21
11 18 44.652.79
11 39 46.6 52.85
1
16
16
16
7.27
7.54
7.81
65.84
65.94
66.04
15 22.25
15 30.97
15 89.02
1
0.876
0.847
0.818
! 1
Thur. 25
Fri. ,26
Sat ,27
1
13 57 25.30
14 1 15.22
14 5 6.87
9.567
9.598
9.629
12 0 38.0 51.90
12 21 18.3 51.43
12 41 47.2 50.95
1
16
16
16
8.07
8.33
8.59
66.14
66.26
66.36
15 46.36 0.289
15 52.98 0259
15 58.87 0.228
Stm. 28
Mon. 29
Tues. 30
Wed. 31
14 8 57.25 9.6eo
14 12 49.40 9.892
14 16 42.34' 9.724
14 20 36.06 9.757
13 2 4.3 50.46
13 22 9.2 49.95
13 42 1.6 49.42
14 1 41.2 48.87
16
16
16
16
8.85
9.10
9.35
9.60
66.47
66.58
66.69
66.80
16 4.03 0.197
16 8.42 0 165
16 12.03 0.182
16 14.86o.099
■Thur. 32
14 24 30.60
9.790
S. 14 21 7.5 48.30
16
9.84
66.91
1
16 16.88 0.066
1 Noi
rm.—
Af«MTlimortlM$
wmldiMn
N«f pMslnf iMjr to fomd by Mbinctinff Oi 18 fioai Om Stdaiwl Thm 1
II.
OCTOBER, 1855.
147
GREENWICH MEAN TIME.
1
THE
MOON'S
•
Horismul PftnUaz.
MerkUAD PkaMfB-
A«e.
1
Noon.
Midnighu
Noon.
Diff. for
Ihour.
Midnight.
DiflT. for
1 bour
DiflT. for
1 hour.
1
2
3
15 2^7
15 13.0
15 2.5
15 1^.1
15 7.3
14 58.2
5^ 36.0
55 43.1
55 4.9
-2.09
1.78
1.39
56 5.6
55 22.8
54 49.5
-1*95
1.58
1.20
h. m.
17 18.4
18 12.4
19 4.2
m.
2.29
2.21
2.10
d
20.0
21.0
22.0
4
I
14 54.6
14 49.4
14 46.6
14 51.7
14 47.7
14 46.1
54 36.4
54 17.1
54 7.1
0.99
061
—0.24
54 25.6
54 10.9
54 5.2
080
0.42
—0.07
19 53.1
20 39.0
21 22.1
1.98
1.85
1.75
23.0
24.0
25.0
7
8
9
14 46.2
14 47.7
14 50.9
14 46.7
14 49.1
14 53.0
54 5.4
54 10.9
54 22.5
-H).09
0.35
0.60
54 7.4
54 15.9
54 30.4
4-0.22
0.48
0.70
22 3.2
22 43.2
23 22.9
1.69
1.68
1.70
26.0
27.0
28.0
10
11
12
14 55.4
15 1.1
15 7.8
14 58.1
15 4.3
15 11.4
54 39.3
54 59.9
55 24.2
0.78
0.94
1.07
54 49.1
55 11.7
55 37.4
0.86
1.01
1.13
6
0 3.7
0 46.7
1.74
1.83
29.0
0.4
1.4
13
14
15
15 15.1
15 23.1
15 31.8
15 19.0
15 27.4
15 36.4
55 51.3
56 20.6
56 52.1
1.17
1.27
1.87
56 5.6
56 36.1
57 8.6
1.22
1.31
1.40
1 31.7
2 20.9
3 14.2
1.96
2.13
2.30
2.4
3.4
4.4
16
17
18
15 40.9
15 50.5
16 0.3
15 45.7
15 55.4
16 5.1
57 25.7
58 0.8
58 36.6
1.43
1.48
1.48
57 43.1
58 18.7
58 54.2
1.46
1.49
1.44
4 11.2
5 10.7
6 10.5
2.43
2.48
2.46
5.4
6.4
7.4
19
20
21
16 9.9
16 18.2
16 24.9
16 14.3
16 21.9
16 27.2
59 11.3
59 42.4
60 6.7
1.89
1.17
0.80
59 27.5
59 55.7
60 15.2
1.30
1.01
0.58
7 8.8
8 4.5
8 57.2
2.37
2 26
2.15
8.4
9.4
10.4
22
23
24
16 28.7
16 28.9
16 25.2
16 29.3
16 27.5
16 21.8
60 20.7
60 21.3
60 7.8
H-0.32
—0.26
0.87
60 22.8
60 16.3
59 55.6
-H).08
—0.56
1.16
9 48.1
10 38.0
11 28.3
2.10
2.08
2.12
11.4
12.4
13.4
25
26
27
16 17.6
16 6.9
15 53.9
16 12.7
16 0.6
15 47.1
59 40.0
59 0.9
58 13.7
1.41
1.83
2.05
59 21.8
58 37.9
57 48.7
1.63
1.97
2.11
12 19.7
13 13.3
14 8.7
2.19
2.27
2.33
14.4
15.4
16.4
28
29
30
31
15 40.1
15 26.6
15 14.2
15 3.7
15 33.2
15 20.2
15 8.6
14 59.5
57 23.0
56 33.1
55 48.0
55 9.9
2.12
2.00
1.75
1.40
56 57.7
56 9.8
55 27.9
54 54.4
2.09
1.88
1.59
1.18
15 5.4
16 1.5
16 55.6
17 46.5
2.35
2.30
2.19
2.05
17.4
18.4
19.4
20.4
32
14 56.0
14 53.0
54 41.3
-0.99
54 30.6
—0.80
18 34.0
1.91
21.4
148
OCTOBER, 1855.
III.
—
GREENWICH
MEAN TIME.
THE MOON'S EIGHT ASCENSION AND DECLINATION.
Hour.
Right Aicenrion.
DiflT.
forlm.
DecUoatkn.
DiflT.
ibrlm.
Hour.
Right AmomIoii.
DiflT.
forlm.
DecUoAtiofL
DiflT.
forlm.
MO]
VDAY
1.
WEDNESDAY 3.
h. in. ■.
f.
O 1 II
v
h. m. ff.
•.
O 1 u
H
0
6 18 38.93
3jm4
N26 57 9.4
4.292
0
7 11 7.92
9.2782
N27 28 6.2
9.808
1
5 21 1.57
2JT79
27 122.3
4.137
1
7 13 24.49
2.3743
27 25 10.9
9.980 '
2
5 23 24.20
2.3770
27 5 25.9
ijm
2
7 15 40.83
9.9700
27 22 7.5
3.195
3
6 25 46.81
funei
27 9 20.2
3.827
3
7 17 56.93
2.9008
27 18 55.9
3ioo
4
6 28 9.41
9.S764
27 13 5.2
8.072
4
7 20 12.79
9.9092
27 15 36.3
3.305
5
5 30 31.98
2.8760
27 16 40.9
8.517
6
7 22 28.40
9.9081
27 12 8.6
3.538
6
5 32 54.53
2.87M
27 20 7.3
8JI02
6
7 24 43.77
9.9540
27 8 33.0
3.000
7
5 35 17.05
2.8749
27 23 24.4
3.207
7
7 26 58.88
9.9400
27 4 49.4
3,792
8
6 37 39.52
2.8743
27 26 32.3
8.063
8
7 29 13.74
9.9455
27 0 58.0
3.9^13
9
5 40 1.96
2.3735
27 29 30.8
2.808
9
7 31 28.34
9.9419
26 56 58.7
44)33
10
5 42 24.35
2J727
27 32 20.1
2.743
10
7 33 42.68
9.2808
26 52 51.6
4.182
11
5 44 46.68
2^710
27 35 0.1
2.580
11
7 35 56.76
2.2823
26 48 36.8
4J11
12
6 47 8.95
2.8706
27 37 30.8
2.435
12
7 38 10.57
2.2278
26 44 14.2
4.440
13
6 49 31.15
2.80Ofl
27 39 52.3
2.281
13
7 40 24.11
9.9233
26 39 44.0
4.506
14
6 51 53.28
2.8082
27 42 4.6
2.128
14
7 42 37.38
2.2188
26 35 6.3
AM
15
5 54 15.33
2.8068
27 44 7.7
1J75
16
7 44 50.38
2.2148
26 30 21.0
4.818
16
5 56 37.30
2.80S8
27 46 1.6
1.822
16
7 47 3.11
2.2008
26 25 28.1
4.944
17
6 58 59.18
2.8630
27 47 46.3
1.070
17
7 49 15.56
9.9059
26 20 27.7
54)67
18
6 1 20.98
2.8024
27 49 21.9
1.517
18
7 61 27.73
9J9005
26 15 20.0
5.190
19
6 3 42.68
2.3008
27 50 48.3
1.805
19
7 53 39.62
9.1968
26 10 4.9
5J13
20
6 6 4.28
2.8893
27 52 5.6
1.212
20
7 55 61.23
9.1010
26 4 42.4
5.435
21
6 8 25.78
2.8A74
27 53 13.7
lUWO
21
7 58 2.55
9.1808
25 69 12.7
5.555
22
6 10 47.16
2.8&M
27 54 12.8
ojne
22
8 0 13.59
9.1816
25 53 35.8
5.675
23
6 13 8.43
TUI
2.8535
5SDA1
N27 55 2.8
^ 2.
0.747
23
8 2 24.35
THU
9.1709
rRSDA
NJ85 47 51.7
Y 4.
5.703
0
6 16 29.57
2.3514
N 27 66 43.7
0.007
0
8 4 34.82
9.1790
N.25 42 0.6
5.010
1
6 17 50.59
2.3403
27 56 15.6
0.407
1
8 6 45.00
9.1672
25 36 2.5
6j090
2
6 20 11.47
2.3471
27 56 38.4
OJ07
2
8 8 54.89
9.1638
25 29 57.5
6.149
3
6 22 32.22
2.3447
27 56 52.3
0.107
3
8 11 4.49
9.1075
25 23 45.5
6.957
4
6 24 52.83
9^22
27 56 57.2
OiMB
4
8 13 13.80
9.1597
25 17 26.6
6J71
5
6 27 13.28
2.3897
27 56 53.3
0.141
5
8 15 22.81
9.1478
25 11 1.0
6.485
6
6 29 33.59
2.8872
27 56 40.4
0.2B0
6
8 17 31.53
9.1429
25 4 28.5
6.506
7
6 31 53.74
2.3345
27 56 18.7
0.487
7
8 19 39.96
9.1380
24 57 49.3
0.7K)
8
6 34 13.73
2^18
27 55 48.1
0.588
8
8 21 48.09
9.1330
24 51 3.4
6.830
9
6 36 33.56
2.3280
27 55 8.8
0.728
9
8 23 55.93
^1381
24 44 10.9
6.010
10
6 38 53.21
2.8260
27 54 20.7
0.873
10
8 26 3.47
9.1989
24 37 11.8
ijm
11
6 41 12.69
2.3280
27 53 23.9
1^18
11
8 28 10.71
9.1183
24 30 6.2
7.140
12
6 43 31.98
2.8200
27 52 18.4
1.163
12
8 30 17.66
^1133
24 22 54.1
7.955
13
6 45 51.09
2.3160
27 51 4.2
13»
13
8 32 24.31
9.1083
24 15 35.6
7.808
14
6 48 10.00
2.3187
27 49 41.4
1.488
14
8 34 30.66
9.1003
24 8 10.7
7.400
15
6 50 28.73
2.3105
27 48 9.9
1406
15
8 36 36.71
10084
24 0 39.5
ijnt
16
6 52 47.26
2.8072
27 46 29.9
1.738
16
8 38 42.47
901035
23 53 2.0
IJFTt
17
6 55 5.59
2.8097
27 44 41.3
1480
17
8 40 47.93
9.0885
23 45 18.3
7.700
18
6 57 23.71
2.8002
27 42 44.3
2.022
18
8 42 53.10
9.0835
28 37 28.5
7J02
19
6 69 41.62
2.2P66
27 40 38.8
9.100
19
8 44 57.97
94n87
23 29 32.5
7.90. 1
20
7 1 59.32
2.2B82
27 38 25.0
9.802
20
8 47 2.55
9Un38
23 21 30.6
1 84)00 1
1 ^*
7 4 16.81
2.2805
27 36 2.7
9.440
21
8 49 6.83
9.00B0
23 13 22 6
Mail
! 22
7 6 34.07
2.2Bfl8
27 33 32.1
9.578
22
8 51 10.82
OJMO
23 5 8.7
•.»•!
, 23
7 8 51.11
2.2820
27 30 53.3
2.710
23
8 53 14.51
9UM0I
22 56 49.0
MM
i»4
7 11 7.92
2.2T82
N27 28 6.2
9.858
24
8 55 17.91
90542
N 22 48 23.4
•.47»
1
IV.
OCTOBER, 1855.
149
GREENWICH MEAN TIME.
THE MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Bifht AacMMkm.
DUE
fbrlm.
DMUntkm.
DIff
forlm
Hour.
Right AKenioQ.
DIff
Ibrlm.
DHT.
forlm.
FR
IDAY
5.
SUNDAY
7.
h. m. 1.
B.
0 f u
u
h. m. •.
ff.
O 1 «
n
0
8 55 17.91
3.0649
N 22 48 93.4
8.476
0
10 28 48.20
1.8668
N.14 26 29.3
13.118
1
8 57 21.02
%04M
22 39 52.1
8.670
1
10 30 39.49
1.8688
14 14 20.5
13.n4
3
8 59 23.83
&0446
22 31 15.1
6.666
2
10 32 30.59
IMM
14 2 8.3
13.380
3
9 126.36
2.0W7
22 22 32.4
6.760
3
10 34 21.52
1.8478
13 49 52.9
13.386
4
9 3 28.60
2Ult49
22 13 44.1
8.863
4
10 36 12.27
1.8444
13 37 34.2
13.889
6
9 5 30.55
3.0801
22 4 50.2
6.946
5
10 38 2.86
1.8416
13 25 12.3
13.803
6
9 7 32.21
3^054
21 55 50.8
9.097
0
10 39 53.27
1.8887
13 12 47.2
13.444
7
9 9 33.59
3.0907
21 46 45.9
9.137
7
10 41 43.51
1.8860
13 0 19.0
13.486
8
9 11 34.69
3.0100
21 37 35.7
9.317
8
10 43 33.60
1.8838
12 47 47.8
13.646
9
9 13 35.51
3.0118
2128 20.0
0J06
9
10 45 23.52
1.8807
12 35 13.5
13.607
10
9 15 36.05
34)066
21 18 59.0
9.886
10
10 47 13.29
1.8389
12 22 36.2
13.647
11
9 17 36.31
3iM>90
21 9 32.8
9.480
11
10 49 2.90
1.8367
12 9 56.0
13.606
12
9 19 36.29
IStrjA
21 0 1.4
9.667
12
10 50 52.37
1.8983
1157 12.9
13.748
13
9 21 35.99
1J098
20 50 24.8
9.668
13
10 52 41.69
1.8909
1144 26.9
13.790
14
9 23 35.42
1.0889
20 40 43.1
9.787
14
10 54 30.88
1.8185
113138.1
13.887
15
9 25 34.57
lil896
20 30 56.4
9.830
15
10 56 19.92
1.8169
11 18 46.5
13.888
16
9 27 33.45
1.9790
20 21 4.7
9.908
16
10 58 8.83
1.8140
11 5 52.2
194)38
17
9 29 32.06
1.974ft
20 11 8.0
9.986
17
10 59 57.62
1.8118
10 5i2 55.3
13.973
18
9 31 30.41
1.9701
20 1 6.4
10J066
18
11 1 46.27
1.8098
10 39 55.7
18.014
19
9 33 28.49
1.9067
19 51 0.0
10.146
19
11 3 34.80
1.8078
10 26 53.6
13.066
20
9 35 26.30
1.9618
19 40 48.8
10.336
20
11 5 23.21
1.8056
10 13 49.0
18.097
21
9 37 23.85
1.9670
19 30 32.9
10.806
21
11 7 11.50
1.8088
10 0 41.9
18.188
22
9 39 21.14
1.9638
19 20 12.3
10.888
22
11 8 59.68
1.8030
9 47 32.4
18.178
23
9 41 18.18
1.0486
N.19 9 47.0
10.460
23
11 10 47.75
1.8003
N. 9 34 20.5
18.318
SAT
TJRDA
Y 6.
MO
NDAT?
' 8.
0
9 43 14.97
1.0444
N.18 59 17.1
10.667
0
11 12 35.71
1.7986
N. 9 21 6.3
18.367
1
9 45 11.50
1.9403
18 48 42.6
10.618
1
11 14 23.57
1.7968
9 7 49.8
13.396
2
9 47 7.79
1.9860
18 38 3.6
10.687
^
11 16 11.33
1.7953
854 31.1
18.383
3
9 49 3.83
1J819
18 27 20.2
10.760
3
11 17 58.99
1.7987
8 41 10.1
18.868
4
9 50 59.62
1.9978
18 16 32.4
10.888
4
11 19 46.56
1.7939
8 27 47.0
18.408
5
9 52 55.18
\J9m
18 5 40.2
10J06
5
11 21 34.05
1.7907
8 14 21.8
18.488
6
9 54 50.49
1.9199
17 54 43.8
10.976
6
11 23 21.45
1.7803
8 0 54.5
18.478
7
9 56 45.56
1.9160
17 43 43.2
11.046
7
11 25 8.77
1.7981
7 47 25.1
18.606
8
9 58 40.40
1.9131
17 32 38.4
11.114
8
11 26 56.02
1.7868
7 33 53.8
18.688
9
10 0 35.01
\M»2
17 21 29.4
11.188
9
11 28 43.19
1.7866
7 20 20.5
18.670
10
10 2 29.39
1.9043
17 10 16.4
11.361
10
11 30 30.29
1.7846
7 6 45.3
18.603
11
10 4 23.54
1.9006
16 58 59.3
11.818
11
11 32 17.33
1.7836
6 53 8.3
18.688
12
10 6 17.46
1.8969
16 47 38.2
11.886
12
11 34 4.31
1.7836
6 39 29.4
18.668
13
10 8 11.17
IJ0B3
16 36 13.1
11463
13
11 35 51.23
1.7816
6 25 48.8
18.609
14
10 10 4.66
1.8807
16 24 44.1
11.617
14
11 37 38 09
1.7806
6 12 6.4
18.730
15
10 11 57.93
1.88S3
16 13 11.2
11.681
15
11 39 24.89
1.7797
5 58 22.4
18.748
16
10 13 50.99
1.8837
16 134.5
11.644
16
11 41 11.65
1.7790
5 44 36.7
18.776
17
10 15 43.84
1.8793
15 49 54.0
11.706
17
11 42 58.37
1.7788
6 30 49.5
18.801
18
10 17 36.49
1.8767
15 38 9.7
11.768
18
11 44 45.05
1.7Tn
5 17 0.7
18.836
19
10 19 28.93
1.8738
15 26 21.8
11.898
19
11 46 31.70
1.7773
5 3 10.4
18.849
20
10 21 21.17
1.8690
15 14 30.3
11.888
20
11 48 18.31
1.7767
4 49 18.8
18.878
21
10 23 13.21
1.8668
15 2 35.3
11.947
21
11 50 4.90
1.7768
4 35 25.7
18.807
22
10 25 5.06
1.8636
14 50 36.7
13.006
22
11 51 51.46
1.7760
4 2131.2
18.919
23
10 26 56.73
1.8501
14 38 34.7
13.069
23
11 53 38.01
1.7767
4 7 35.5
18.940
24
10 28 48.20
1.8368
N 14 26 29.3
13.118
24
11 55 24.54
1.7764
N. 3 53 38.5
18.960
150
OCTOBER, 1855.
V.
r
GREENWICH MEAN TIME.
1
THB MOON'S RIQHT ASCENSION AND DBCLINATION.
Hoar.
Right Aflcefwkm.
DilC
forlm.
Diflr.
fbrlm
Hour.
DiflT.
IbrlDL
DeeliMUoQ.
DUT
forlm.
TUE
SDAY
9.
THURSDAY 11.
h. m. a.
&
O 1 ff
#(
h. m. •
s.
0 1 N
v
0
11 55 24 54
1.77M
N. 3 53 38.5
18300
0
13 91 36.69
13499
& 7 95 9.6
13304
; 1
11 57 11.06
I.T7W
3 39 40.3
18370
1
13 28 27.31
13463
7 39 1.9
13378
2
11 58 67.57
1.77flO
3 25 41.0
18.008
9
13 25 18.11
13483
7 52 59.7
13.069
1; 3
12 0 44.07
l.TTSO
3 1140.5
14317
3
13 27 9.09
13618
8 6 56.2
13.990
,1 4
12 2 30.57
1.7761
2 57 39.0
14336
4
13 29 0.27
13H6
8 90 51.3
13306
'1 5
12 4 17.08
1.7763
2 43 36.4
14361
5
13 30 51.64
13676
8 34 44.9
13380
i! 6
12 6 3.60
1.7766
2 29 32.9
14367
6
13 32 43.21
13613
8 48 37.0
13366
i 7
12 7 50.13
1.7767
2 15 28.4
14363
7
13 34 34.99
13647
9 2 27.6
13398
8
12 9 36.67
1.77»
2 123 0
14307
8
13 36 26.97
13883
9 16 16.5
13300
! 9
12 11 23.23
1.7703
1 47 16.8
14.110
9
13 38 19.17
13717
9 30.3.7
13.779
10
12 13 9.81
l.T7«7
133 9.8
14.133
10
13 40 11.58
13763
9 43 49.2
13.749
) u
12 14 56.42
1.7772
1 19 2.0
14.136
11
13 42 4.21
13791
9 57 32.8
18.719
12
12 16 43.06
1.7777
1 4 53.5
14.147
19
13 43 57.07
13830
10 11 14.6
13380
. 13
12 18 29.74
1.7783
0 50 44.4
14.168
13
13 45 50.16
13860
10 24 54.5
U.647
; >*
12 20 16.45
1.7790
0 36 34.6
14.168
14
13 47 43.48
13808
10 38 32.3
13.618
1 16
12 22 3.21
1.7798
0 22 24.3
14.177
15
13 49 37.03
13847
10 52 8.1
U.878
i 16
12 23 50.02
1.7800
N. 0 8 13.5
14.186
16
13 51 30.82
13887
11 5 41.8
U3tt
,; 17
12 25 36.88
1.7814
S. 0 5 67.8
14.193
17
13 53 24.86
13038
11 19 13.3
18307
18
12 27 23.79
1.7838
0 20 9.5
14.108
18
13 55 19.15
13067
1132 42.6
13.468 ^
1 19
12 29 10.76
1.7884
0 34 21.6
14.304
19
13 57 13.68
13110
1146 9.6
18.430 1
20
12 30 57.80
1.7846
0 48 33.9
I4.30O
20
13 59 8.47
13169
1159 34.2
13380
31
12 32 44.90
1.7867
1 2 46.6
14318
21
14 1 3.52
13197
12 12 56.4
18340
22
12 34 32.07
1.7800
1 16 59.5
14.916
22
14 2 58.83
13943
12 26 16.1
U300
23
12 36 19.32
1.7883
S. 1 31 12.6
14318
93
14 4 54.41
13387
&12 30 33.2
U.963
WED]
^ESDi
KY 10.
PR
IDAY
12.
0
12 38 6.65
1.7805
S 145 95.7
14390
0
14 6 50.96
13833
R12 59 47.7
18.910
1
12 39 54.06
1.7900
1 59 38.9
14333
1
14 8 46.38
I3tn
13 5 50.6
18.174
9
12 41 41.55
1.7031
2 13 52.2
14.tl0
9
14 10 49.78
13433
13 19 8.6
18.197 ,
3
12 43 29.14
1.7038
2 28 5.4
14.918
3
14 19 39.46
13470
13 32 14.9
18370 t
4
12 45 16.62
1.7066
2 42 18.5
14.916
4
14 14 36.49
13818
13 45 18.3
13380 1
5
19 47 4.60
1.7073
2 56 31.5
I4.9U
5
14 16 33.68
13666
13 58 18.6
19380 ,
6
12 48 52.49
1.7900
3 10 44.3
14.911
6
14 18 31.92
13616
14 11 16.0
19390 ,
7
12 50 40.48
1.8008
3 24 56.9
14.907
7
14 90 90.06
13686
14 94 10.9
i93n
8
12 52 28.59
1.8037
3 39 9.1
14.909
8
14 99 97.91
13716
14 37 1.9
19384
9
12 54 16.81
1.8047
3 53 21.1
14.106
9
14 24 25.65
13760
14 49 49.0
19.770
10
12 56 5.15
1.8087
4 7 32.7
14.188
10
14 96 24.40
13818
15 9 33.5
19.7U
11
12 57 53.61
1.8088
4 2143.8
14.180
11
14 28 23.47
13870
15 15 14.5
19388
' 12
12 59 42.20
1.8100
4 35 54.4
14.179
19
14 30 22.84
13099
15 97 52.1
13307 1
i *3
13 1 30.92
1.8181
4 50 4.4
14.168
13
14 32 22.53
13076
15 40 96.1
I93CT
14
13 3 19.78
1.8164
5 4 13.8
14.189
14
14 34 29.55
93038
15 59 56.5
19378
15
13 6 8.77
1.8178
5 18 22.6
14.140
15
14 36 92.88
93083
16 5 93.9
19318
16
13 6 57.91
1.8303
5 32 30.7
14.198
16
14 38 93.54
93188
16 17 46.9
19380 i
17
13 8 47 19
1.8337
5 46 37.9
14.116
17
14 40 94.54
93198
16 30 5.3
19.987 I
! 18
13 10 36.63
13963
6 0 44.4
14.100
18
14 42 25.86
93M8
16 42 90.6
19.909
19
13 12 26.22
13370
6 14 50.0
14386
10
14 44 97.52
93804
10 54 31.9
19.188
20
13 14 15.98
13307
6 28 54.6
14310
90
14 46 99.51
93861
17 6 39.9
19387 '
21
13 16 5.90
1306
6 42 58.3
14383
91
14 48 31.85
93418
17 18 49.4
19318
22
13 17 55.99
13383
6 57 1.0
14388
92
14 50 34.53
9.0C16
17 30 41.4
11317
; 23
13 19 46.25
13803
7 11 2.5
14316
93
14 59 37.56
9te4
17 49 36.1
113M
94
1
13 21 36.69
iMn
a 7 95 9.8
U304
94
14 54 40.03
93803
8 17 54 96.5
.,*.,
VI.
OCTOBER, 1855.
151
GREENWICH
MEAN TIME.
THE
MOON'S BIGHT ASCENSION AND DECLINATION.
Hour.
Sight AacMMioo.
DilC
forlm.
Derlimlton
DilC
Ibrlm.
Hour.
Right AMSMSiOQ.
DUE
forlm.
DecUnatioiL
Dlfll '
forlm.
SATU
rRDAl
' 13.
MONDAY
15.
h. m. a.
■.
O 1 M
n
h. m. •.
■.
o n
ti
0
14 54 40.03
SjOAU
S 17 54 26.5
IIJOS
0
16 40 47.81
9.3047
S.25 31 53.1
0.743
1
14 56 44.66
%JMl
18 6 12.5
11.796
1
16 43 9.87
94708
25 38 33.5
0404
2
14 58 48.74
0.0710
18 17 53.9
11.009
3
16 45 32.30
94709
25 45 5.5
0465
3
15 0 53.18
2jmo
18 29 30.8
11.075
3
16 47 55.09
94890
25 5129.2
6494
4
15 2 57.98
4U»I
18 41 3.1
11.407
4
10 50 18.24
94867
25 57 44.4
6.181
5
15 5 3.15
9Mm
18 52 30.6
11.416
5
16 52 41.74
94046
26 3 51.0
6438
6
15 7 8.68
9.0BM
19 3 53.3
11488
6
16 55 5.60
94006
96 9 49.0
6404
7
15 9 14.58
9.1015
19 15 11.2
11.950
7
16 57 29.81
94009
96 15 38.3
5.740
8
15 11 20.85
2.ion
19 96 24.0
11.173
8
16 59 54.35
9.4110
26 21 18.9
6409
9
15 13 27.49
3.UM
19 37 31.9
11X86
0
17 2 19.23
94175
26 26 50.6
6465
10
15 15 34.50
9.1900
19 48 34.6
11.009
10
17 4 44.45
9.4980
26 32 13.4
0400
11
15 17 41.89
9.1909
19 59 32.1
10415
11
17 7 9.99
94905
26 37 27.3
0.166
12
15 19 49.65
9.1S95
20 10 24.4
10497
12
17 9 35.87
94340
26 42 32.1
6400
13
15 21 57.79
9.1386
20 21 11.3
10.737
13
17 12 2.07
94304
26 47 27.8
4451
14
15 24 6.31
9.14*^1
20 31 52.8
10445
14
17 14 28.59
94447
26 52 14.3
4407
15
15 26 15.21
9.1A16
20 42 28.8
10450
15
17 16 55.42
94406
96 56 51.5
4449
16
15 28 24.50
9.1fia0
20 52 59.2
10.400
16
17 19 22.56
94548
27 1 19.4
4467
17
15 30 34.17
9.1015
21 3 23.9
10406
17
17 21 49.99
94560
27 5 37.9
4.930
18
15 32 44.23
9.1710
21 13 42.9
10.906
18
17 24 17.73
94647
27 9 47.0
4479
19
15 34 54.68
, 9.1774
2123 56.1
10.170
19
17 26 45.76
94005
97 13 46.6
3413
20
15 37 5.51
9.1838
2134 3.3
10470
20
17 29 14.07
94749
27 17 36.6
3.751
21
15 39 16.74
9.1003
2144 4.5
0400
21
17 31 42.66
94788
27 21 17.0
3408
22
15 41 28.36
9.1906
2153 59.6
9487
22
17 34 11.53
94833
97 94 47.8
3439
23
1
15 43 40.37
SU]
1 9.9004
VDAY
s22 3 48.6
14.
9.703
23
17 36 40.66
TUB
948n
:SDA1
a97 28 8.8
' 16.
3460
0
15 45 52.78
9.9100
S22 13 31.3
9466
0
17 39 10.05
940-JO
S.27 31 90.0
8.100
1
15 48 5.58
9.9105
22 23 7.7
9.559
1
17 41 39.70
14909
97 34 21.4
9440
2
15 50 18.77
9.9930
22 32 37.7
9.445
2
17 44 9.59
94909
97 37 12.9
9.775
3
15 52 32.35
9.1900
22 42 1.2
0437
3
17 46 39.72
9.5041
27 39 54.4
9400
4
15 54 46.33
93802
22 51 18.1
9.997
4
17 49 10.09
94080
27 42 26.0
9449
5
15 57 0.70
9.9496
23 0 28.4
0.116
5
17 51 40.69
94117
27 44 47.5
9.974
6
15 59 15.47
9.9198
23 9 32.0
04QS
6
17 54 11.51
9.5154
27 46 58.9
9.105
7
16 1 30.63
9.9566
23 18 28.8
8468
7
17 56 42.55
9.5190
27 49 0.2
1435
8
16 3 46.18
9.9094
23 27 18.6
8.779
8
17 59 13.79
9.5995
27 50 51.2
1.765
9
16 6 2.13
9.9000
23 36 1.5
8456
9
18 1 45.24
9.5957
27 52 32.0
1404
10
16 8 18.47
9.9755
23 44 37.3
8487
10
18 4 16.88
9.5986
27 54 2.5
U99
11
16 10 35.20
9.9Bi0
23 53 6.0
8U18
11
18 6 48.71
9.5316
27 55 22.6
1.940
12
16 12 52.32
9.986^^
24 127.5
8.907
12
18 9 20.71
94347
27 56 32.4
1476
13
16 15 9.83
9.9950
24 9 41.7
8.175
13
18 11 52.88
94875
27 57 31.7
0409
14
16 17 27.74
9JW16
24 17 48.5
8459
14
18 14 25.21
9.5409
27 58 20.6
0.7«
15
16 19 46.03
9JI083
24 25 47.9
74J7
15
18 16 57.70
9.5497
27 58 59.1
0453
16
16 22 4.71
9.3147
24 33 39.7
7400
16
18 19 30.33
94450
27 59 27.1
0478
17
16 24 23.78
9.3910
24 4123.9
7.079
17
18 22 3.10
9.M73
27 59 44.6
0.903
18
16 26 43.23
9JI973
24 49 0.4
7413
18
18 24 36.01
94405
27 59 51.6
0498
19
16 29 3.06
9.3835
24 56 29.1
7.413
19
18 27 9.05
9.5515
27 59 48.1
0.148
20
16 31 23.26
9.3806
25 3 49.9
7.961
20
18 29 42.20
94535
27 59 33.9
0495'
21
16 33 43.84
9.3400
25 11 2.8
7.148
21
18 32 15.47
94653
27 59 9.1
0400 1
22
16 36 4.79
9.8593
25 18 7.7
7413
22
18 34 48.84
94608
27 58 33.6
0480 !
23
16 38 26.12
iMBi
25 25 4.5
0476
23
18 37 22.30
94508
27 57 47.5
04581
i 24
16 40 47.81
9.3047
25 3153.1
0.749
24
18 39 55.84
94607
a27 56 50.7
1437 ||
152
OCTOBER, 1855.
VII.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right AKaiMioD.
forlm.
DecUnaUoo.
Ibrlm.
Hour.
war.
forlm.
DecUnaOoD.
Die
Ibrlm.
WEDNESDAY 17.
FRIDAY
19.
h. m. «.
a.
O 1 N
N
h. m. f.
f.
o f a
N
0
18 39 55.84
3.M07
S 27 56 50.7
ijm
0
20 41 52.91
9.4708
S.23 43 53.0
9491
1
18 42 29.46
3.M0e
27 55 43.2
1.916
1
20 44 21.55
9.475S
23 34 29.1
9.475
2
18 45 3.13
^MI8
27 54 25.0
1.898
2
20 46 49.96
9.4713
23 24 56.0
9498
3
18 47 36.87
9.M31
27 52 56.0
1.579
3
20 49 18.12
9.4673
23 15 13.6
9.789
4
18 50 10.66
3J)0SA
27 51 16.3
1.751
4
20 51 46.04
9.4683
23 5 22.1
9433
5
18 52 44.49
3.M4I
27 49 25.9
1.990
5
20 54 13.71
9.4603
22 55 21.6
10483
6
18 55 18.35
7M46
27 47 24.7
9.110
6
20 56 41.14
9.4560
22 45 12.1
10.989
7
18 57 52.24
9.6660
27 45 12.7
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7
20 59 8.31
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22 34 53.7
10480
8
19 0 26.15
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21 1 35.23
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22 24 26.4
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9
19 3 0.07
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9
21 4 1.89
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22 13 50.4
10479
10
19 5 33.99
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21 6 28.29
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11
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8.006
11
21 8 54.43
9.4835
21 52 12.4
10460
12
19 10 41.80
9.6648
27 3131.3
8.185
12
21 11 20.31
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21 41 10.5
ll.Ktt
13
19 13 15.68
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27 28 14.8
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13
21 13 45.92
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2130 0.1
11.949
14
19 15 49.53
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15
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16
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17
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18
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20
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21
19 33 45.01
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21
21 33 1.25
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22
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23
1
1
19 38 51.60
THUl
9.66n
RSDAT
&26 45 41.7
sr 18.
8.149
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9J600
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0
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1
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1
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2
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3
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4
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5
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6
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20 4 17.20
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9
22 1 21.99
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17 19 4.5
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20 6 48.94
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25 38 37.0
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17 5 16.1
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20 9 20.51
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16
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20 24 26.02
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20 26 56.23
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24 28 30.7
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19
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14 56 18.6 1 i4.7n.
90
20 31 66.01
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20
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21
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24
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9.391
24
22 35 55.99
94747
S13 41 18. li 15499
VIII.
OCTOBER, 1855.
153
GREENWICH
MEAN TIME.
THB
MOOITS RIGHT
ASCENSION AND DECLINATION.
.Hour.
Right AAcaoskm.
Difl!
forlm.
DeclinatioD.
Dur.
Ibrlm.
Hoar.
Right AKMision.
Difl!
forlm.
DodinBtlon.
Dur.
forlm.
su^
fDAY
21.
TUESDAY
23.
h. m. •.
f.
O 1 H
II
h. m. a.
a.
O 1 N
w
1 0
22 35 55.99
S.?747
&13 41 18.1
10.999
0
0 21 59.14
9.1718
& 0 23 52.2
17J90
i 1
22 38 12.36
3.7710
13 26 2.2
16J07
1
0 24 9.44
9.1716
S. 0 6 33.0
17^19
2
22 40 28.52
2.«7J
13 10 41.2
10.391
2
0 26 19.72
9.1719
N. 0 10 46.0
nMi
9
22 42 44.45
2.W7
12 55 15.2
10.473
3
0 28 29.99
9.1711
0 28 4.9
17.3U
4
22 45 0.17
3.9009
12 39 44.4
10.063
4
0 30 40.25
9.1710
0 45 23.5
17.307
5
22 47 15.67
3.9flffT
12 24 8.8
10.631
5
0 32 50.51
9.1711
1 2 41.7
17.999
6
22 49 30.97
3.9SS9
12 8 28.6
10.707
6
0 35 0.77
9.1719
1 19 59.4
17.990
7
22 51 46.06
3.9496
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10.789
7
0 37 11.04
9.17U
1 37 16.5
17.979
8
22 54 0.96
3.9466
1136 54.7
10.866
8
0 39 21.32
9.1716
1 54 32.8
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9
22 56 15.65
3.94S9
1121 1.!
10.998
9
0 41 31.61
9.1718
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10
22 58 30.15
3.9403
11 5 3.3
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10
0 43 41.92
3.1791
2 29 3.0
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11
23 0 44.47
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10 49 1.4
164)66
11
0 45 52.26
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2 46 16.5
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19
23 2 58.60
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10 32 55.5
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12
0 48 2.63
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3 3 28.9
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13
23 5 12.55
9.9310
10 16 45.8
16.193
13
0 50 13.04
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3 20 40.1
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14
23 7 26.32
9.9980
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0 52 23.48
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15
23 9 39.91
9.9951
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15
0 54 33.97
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16
23 11 53.34
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0 66 44.50
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17
23 14 6.60
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9 1129.9
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17
0 68 55.09
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18
23 16 19.70
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8 55 2.2
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18
1 1 5.73
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19
23 18 32.64
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8 38 31.2
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19
1 3 16.43
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5 3 14.4
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20
23 20 45.43
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8 2157.1
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20
1 5 27.20
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5 20 13.7
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21
23 22 58.06
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8 5 19.9
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21
1 7 38.03
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5 37 10.9
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22
23 25 10.55
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7 48 39.8
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22
1 9 48.94
9.1896
6 54 5.9
16.896
23
23 27 22.90
9.9017
S. 7 31 56.8
16.740
23
1 11 59.92
9.1838
N. 6 10 68.5
16.800
MO
NDAY
22.
WEDl
^ESDi
KY 24.
0
23 29 35.11
9.9090
a 715 11.1
16.784
0
1 14 10.99
9.1803
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1
23 31 47.19
9.9004
6 58 22.7
16.897
1
1 16 22.15
9.1808
6 44 36.1
16.770
2
23 33 59.15
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6 4131.9
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2
1 18 33.40
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7 120.9
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3
23 36 10.98
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6 24 38.6
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3
1 20 44.74
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7 18 3.0
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4
23 38 22.69
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6 7 43.0
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4
1 22 56.18
3.1910
7 34 42.1
16.637
5
23 40 34.29
3.1996
5 50 45.2
16.981
5
1 25 7.72
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7 61 18.2
16.076
6
23 42 45.78
9.1906
5 33 45.3
174)10
6
1 27 19.37
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8 7 61.3
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7
23 44 57.16
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5 16 43.4
174)47
7
1 29 31.13
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8 24 21.2
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8
23 47 8.45
9. 1873
4 59 39.7
174)77
8
1 31 43.00
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8 40 47.7
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9
23 49 19.64
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4 42 34.2
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9
1 33 64.99
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8 67 10.9
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10
23 51 30.74
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4 25 27.0
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10
1 36 7.10
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9 13 30.6
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11
23 53 41.75
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4 8 18.3
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11
1 38 19.34
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9 29 46.6
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12
23 55 52.68
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3 51 8.1
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12
1 40 31.70
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9 45 69.0
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13
23 58 3.53
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3 33 56.6
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13
1 42 44.19
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10 2 7.6
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14
0 0 14.30
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3 16 43.9
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14
1 44 56.81
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10 18 12.3
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15
0 2 25.01
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2 69 30.0
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15
1 47 9.56
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10 34 13.1
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16
0 4 35.65
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2 42 15.1
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16
1 49 22.45
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10 50 9.7
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17
0 6 46.24
9.n60
2 24 59.3
17.970
17
1 51 35.49
9.9186
11 6 2.1
16.837
18
0 8 66.77
^1709
2 7 42.7
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18
1 53 48.67
9.9310
11 21 50.2
10.760
19
0 11 7.26
9.17U
1 50 25.4
17.993
19
1 66 2.01
9.9936
1137 33.9
10.690
20
0 13 17.70
^1717
133 7.5
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20
1 58 15.51
9.9909
1153 13.1
10.610
21
0 15 28.11
9.17S9
1 15 49.1
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21
2 0 29.16
9.9989
12 8 47.7
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22
0 17 38.48
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0 58 30.4
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22
2 2 42.98
9.9317
12 24 17.5
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23
0 19 48.82
9.1799
041 11.4
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23
2 4 56.96
9.9346
12 39 42.5
10.376
24
0 21 59.14
9.1716
s. 0 23 62.2
17.890
24
2 7 11.10
9.9879
N.12 65 2.6
10.998
20
154
OCTOBER, 1855.
IX.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right Aaceosion.
Dlff
fori m.
DecUoatioiL
Diff.
for I m.
Hour.
Right Aacmwion.
war.
forlm.
Declinatioa.
DIff
forlm.
THURSDAl
r 25.
SATURDAl?
27.
h. m. a.
f.
O f u
^
h. m. a.
8.
O 1 N
N
0
2 7 11.10
%7m
N.12 55 2.6
16.303
0
3 58 9.93
34868
N.23 5 25.0
9489
1
2 9 25.41
3.3400
13 10 17.7
15.308
1
4 0 33.22
34895
23 14 58.5
9485
2
2 11 39.88
3.3437
13 25 27.6
15.133
2
4 2 56.66
34931
23 24 23.1
9487 1
3
2 13 54.52
3.34M
13 40 32.3
15.084
3
4 5 20.26
34947
23 33 38.8
9.ld8
4
2 16 9.33
3.3483
13 55 31.7
14.945
4
4 7 44.02
34973
23 42 45.5
9488
5
2 18 24.31
3.3513
14 10 25.7
14456
5
4 10 7.93
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23 51 43.2
8487 1
6
2 20 39.47
3.3ft4a
14 25 14.3
14.7A3
6
4 12 31.98
3U031
24 0 31.9
8.735 1
7
2 22 54.81
3.3973
14 39 57.3
14408
7
4 14 56.18
34014
24 9 11.5
8488
8
2 25 10.34
3.3801!
14 54 34.5
14473
8
4 17 20.51
34067
24 17 41.9
8480
9
2 27 26.05
3.3835
15 9 6.0
14.476
9
4 19 44.08
34089
24 26 3.2
8477
10
2 29 41.95
3.38^7
15 23 31.6
14478
10
4 22 9.58
3.4111
24 34 15.3
8.198
11
2 31 58.04
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15 37 51.3
14.378
11
4 24 34.30
34183
24 42 18.0
7468
12
2 34 14.32
3.3780
15 52 4.9
14.177
12
4 26 59.15
34161
24 50 11.5
74U
13
2 36 30.79
3.37W
16 6 12.4
14.013
13
4 29 24.11
34170
24 57 55.6
744r7 1
14
2 38 47.45
3.37m
16 20 13.7
18488
14
4 31 49.19
9.4188
25 5 30.4
7400 •
15
2 41 4.30
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16 34 8.7
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15
4 34 14.37
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25 12 55.7
7448
16
2 43 21.35
3.3857
16 47 57.3
18.756
16
4 36 39.65
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25 20 11.6
7.186 i
17
2 45 38.59
3.3800
17 139.4
1S.647
17
4 39 5.03
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25 27 18.0
7438
18
2 47 56.03
3.3928
17 15 14.9
18497
18
4 41 30.50
9.4968
25 34 14.9
6470
19
2 50 13.67
3.3065
17 28 43.8
18.495
19
4 43 56.06
94367
25 41 02.3
6.711
20
2 52 31.50
3.3989
17 42 5.9
18413
20
4 46 21.70
94980
25 47 40.0
6451 1
21
2 54 49.53
3.8031
17 55 21.2
18.197
21
4 48 47.42
94993
25 54 8.3
•480
22
2 57 7.76
3M4
18 8 29.6
18460
22
4 51 13.20
94803
26 0 26.9
6.939
23
2 59 26.18
FR
34088
IDAY
N.18 2130.9
26.
19489
23
4 53 39.04
SUl
94818
^IDAY
N.26 6 35.8
28.
6468 1
!
0
3 1 44.81
9.8133
N 18 34 25.1
I94M
0
4 56 4.95
94893
N 26 12 35.1
6407
1
3 4 3.64
34155
18 47 12.1
19.798
1
4 58 30.91
94830
26 18 24.8
6.746
2
3 6 22.66
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19401
2
5 0 56.92
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26 24 4.8
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3
3 8 41.89
. 34331
19 12 24.3
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3
5 3 22.97
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26 29 35.1
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4
3 11 1.31
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19 24 49.3
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4
5 5 49.06
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26 34 55.6
6.389
5
3 13 20.93
34387
19 37 6.8
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5
5 8 15.18
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26 40 6.4
6.100
6
3 15 40.75
94830
19 49 16.8
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6
5 10 41.32
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26 45 7.5
4486
7
3 18 0.77
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20 I 19.2
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7
5 13 7.48
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26 49 58.8
4.776
8
3 20 20.98
34385
20 13 13.9
11448
8
5 15 33.66
9436^
26 54 40.4
4413 ,
9
3 22 41.39
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20 25 0.9
11.718
9
5 17 59.84
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20 59 12.2
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10
3 25 1.99
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20 36 40.0
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10
5 20 26.02
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27 3 34.2
4485
11
3 27 22.79
94492
20 48 11.2
11.488
11
5 22 52.20
94863
27 7 46.4
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12
3 29 43.78
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20 59 34.4
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12
5 25 18.37
94150
27 1148.8
8468
13
3 32 4.96
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21 10 49.5
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13
5 27 44.52
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14
3 34 26.33
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14
5 30 10.64
343M)
27 19 24.3
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15
3 36 47.89
94808
2132 55.2
10411
15
5 32 36.73
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27 22 57.4
8470
16
3 39 9.63
94888
21 43 45.7
10.778
16
5 35 2.78
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27 26 20.7
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1 17
3 41 31.55
34088
21 54 27.9
10483
17
5 37 28.79
94310
27 29 34.2
8.145 ;
■ 18
3 43 53.65
34698
22 5 1.7
10.408
18
5 39 54.75
94»«
27 32 37.9
34»i
19
3 46 15.93
34738
22 15 27.0
10453
19
5 42 20.66
9.4312
27 35 32.0
94«
20
3 48 38.39
94757
22 25 43.8
10.310
20
5 44 46.50
94101
27 38 16.3
3487
1 21
3 51 1.02
34788
22 35 52.1
10467
21
5 47 12.27
94390
27 40 50.9
9495
1 22
3 53 23.82
34815
22 45 51.8
9433
22
5 49 37.97
943n
27 43 15.7
9483
23
3 55 46.79
94848
22 55 42.7
9.777
23
5 52 3.59
94361
27 45 30.9
' 9.179
24
3 58 9.93
94888
N23 5 25.0
9483
24
5 54 29.12
94«47
N 27 47 36.3
9411 .
X.
OCTOBER, 1855,
155
GREENWICH
MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION. 1
Hoar.
HlffatAKaMloo.
DUK
Ibrlm.
DocUmUoo.
Ibrlm.
Hour.
Bight AacMMioa.
Diff.
forlm.
DecUnftUoa.
DUE
forlBL
M0>
rOAY
29.
WEDNESDAY 31.
h. m. •.
•.
O 1 N
N
h. m. •.
a.
O 1 H
N
0
5 54 29.12
J.4947
N.27 47 36.3
9U>11
0
7 47 17.16
9.9451
N.26 28 4.6
6316
1
5 56 54.55
S.49B0
27 49 32.1
L860
1
7 49 31.70
93808
26 22 58.1
6.173
9
5 59 19.88
0^13
27 51 18.2
14160
2
7 51 45.93
9.3844
26 17 44.0
6386
3
6 1 45.10
%Am
27 52 54.6
1.698
3
7 53 59.83
3.3960
26 12 22.4
6.493
4
6 4 10.21
9.4174
27 54 21.4
1.867
4
7 56 13.41
33336
. 26 6 53.4
6346
5
6 6 35.20
9.41M
27 55 38.6
1.307
5
7 58 26.67
9.3183
26 I 17.0
6.666
6
6 9 0.07
3.41SS
27 56 46.3
1.048
6
8 0 39.60
33197
25 55 33.3
6.780
7
6 11 24.80
9.4110
27 57 44.4
0.880
7
8 2 52.20
33078
25 49 42.4
6310
8
6 13 49.39
9.4066
27 58 32.9
0.730
8
8 5 4.48
3.3018
25 43 44.3
6300
9
6 16 13.83
9.4089
27 59 12.0
0.673
9
8 7 16.42
3.1068
25 37 39.0
6.148
10
6 18 38.12
9U006
27 59 41.6
0.415
10
8 9 28.03
3.1006
25 31 26.7
6.366
11
6 21 2.26
9.4008
28 0 1.7
0.356
11
8 11 39.31
9.1858
25 25 7.3
6381
13
6 23 26.23
9.8080
28 0 12.5
0.101
12
8 13 50.26
9.1707
25 18 41.0
6.497
13
6 25 50.03
9.8063
28 0 13.9
0M6
13
8 16 0.87
9.1741
25 12 7.8
6313
14
6 28 13.66
94038
28 0 5.9
0.311
14
8 18 11.15
9.1686
25 5 27.6
6.736
15
6 30 37.11
9.3809
27 59 48.7
0.365
15
8 20 21.10
9.1680
24 58 40.7
0380
16
6 33 0.37
9.3860
27 59 22.1
0.519
16
8 22 30.71
9.lff75
24 51 47.1
6350
17
6 35 23 44
%»»
27 58 46.4
0.673
17
8 24 39.99
9.1510
24 44 46.8
7.060
18
6 37 46.31
9.8795
27 58 1.5
0.895
18
8 26 48.93
9.1468
24 37 40.0
7.168
19
6 40 8.98
3.8760
27 57 7.4
0.978
19
8 28 57.54
9.1407
24 30 26.6
7.9n
20
6 42 31.44
3.8735
27 56 4.2
1.180
20
8 31 5.81
9.1850
24 23 6.7
7385
91
6 44 53.69
3.8600
27 54 52.0
1.380
21
8 33 13.74
9.1304
24 15 40.4
7.403
22
6 47 15.72
3.8666
27 53 30.7
1.430
22
8 35 21.34
3.1388
24 8 7.7
7.606
23
6 49 37.52
3.8616
N.27 52 0.4
1.678
23
8 37 28.60
3.1183
N24 0 28.7
7.706
TUi
:SDA^
' 30.
THURSl
3AY,
NOV. 1.
0
6 51 69.09
3.8976
N 27 50 21.2
1.797
0
8 39 35.53
1 3,1197
N.23 52 43.4
7306
1
2
6 54 20.43
6 56 41.53
9.8687
3.8487
27 48 33.2
27 46 36.2
1.876
iJ092
3
6 59 2.38
3.8456
27 44 30.5
3.168
4
7 122.99
3.8414
27 42 16.0
9318
5
7 3 43.34
3.8873
27 39 52.8
9.468
6
7
7 6 3.44
7 8 23.29
33390
3.3385
27 37 20.9
27 34 40.5
9.608
9,747
PHASES (
3F T
HE MOON.
8
9
7 10 42.87
7 13 2.18
3.8340
3.8105
27 31 51.4
27 28 53.8
9369
8380
10
7 15 21.21
3.8160
27 25 47.8
8.171
Day. h. m.
11
7 17 39.97
3.8104
27 22 33.3
8311
C LastQuar
ter, .
. 2 11 06.0
12
7 19 58.45
3JI057
27 19 10.5
8.450
# New Moo
n, .
. 10 15 25.9
13
7 22 16.65
3.8000
27 15 39.4
8.588
3> First Qua]
rter,
. 18 03 39.3
14
7 24 34.56
3.3061
27 12 0.0
8.735
O Full Mooi
», .
. 24 19 27.9
15
16
7 26 52.18
7 29 9.51
9.9913
9.3868
27 8 12.5
27 4 16.7
8363
8397
17
7 31 26.54
9.3813
27 0 12.9
4.180
Daj. h.
18
7 33 43.27
3.3709
2656 1.1
4.363
<C Apogee,
, ,
. . 6 16.8
19
7 35 59.69
3J711
26 5141.3
4305
<C Perigee,
, ,
. . 22 13.3
20
7 38 15.81
3.3660
26 47 13.6
4.537
21
7 40 31.62
9.9600
26 42 38.0
4.656
22
7 42 47.12
9.9557
26 37 54.6
4.788
23
7 45 2.30
9.9504
26 33 3.4
4318
24
7 47 17.16
9.9461
N.26 28 4.6
6346
156
OCTOBER, 1855.
XI.
GREENWICH MEAN
TIME.
LUNAB DISTANCES.
i^
SUr'aNuM
P. L.
P.L.
PL.
P. L.
^%
and
Noon.
of
IIP».
of
Vli>.
of
DCh.
of
l|!
Potition.
DiflE;
DiflE;
Diff
Diflr.
1
a Pefnwi W.
O 1 II
88 3 69
aOB4
O 1 M
89 32 28
8101
O 1 u
91 0 36
8190
O 1 «
92 28 21
8186
a Arietis W.
45 10 43
7m
46 44 4
9809
48 17 12
9871
49 60 7
9888
Aldebaran W.
15 57 17
8946
17 20 36
8974
18 45 18
8316
20 11 9
8100
Pollux E.
30 36 51
3787
28 51 0
97*4
27 16 32
9779
26 40 28
9790
Mars E.
58 7 14
99S8
5636 2
9970
65 6 12
9908
63 34 44
8006
Rei^ulus E,
67 3 48
9748
65 28 5
9760
63 62 46
9777
62 17 47
1798
Sun E.
106 56 10
8070
105 26 35
8007
103 68 21
8114
102 30 29
8181
9
a Arietis W.
57 30 59
98S0
59 2 28
9060
60 33 43
9909
62 444
9978
Aldebaran W.
27 30 17
8060
28 59 5
8003
3098 1
8087
3167 3
•066
Mars E.
46 7 39
8087
44 39 14
8109
43 11 7
81 n
41 43 18
8189
Regulus E.
54 28 8
9S7I
52 55 12
9886
6122 34
9899
49 60 14
9918
Sun E.
95 16 9
8aii
93 60 14
8996
92 24 36
8949
90 69 16
rm
3
a Arietis W.
69 36 35
8033
71 6 21
8081
72 36 66
8040
74 6 18
8049
Aldebaran W.
39 22 20
8061
40 61 17
8066
42 20 8
8073
43 48 52
8070 ,
Saturn W.
16 59 0
8180
18 25 22
8167
19 62 11
8149
21 19 21
8187
Mars E.
34 28 36
3W3
33 2 29
8914
31 36 37
8998
30 11 1
8941
Ref^los E.
42 12 55
9970
40 42 16
9991
39 11 52
8008
37 41 43
8016
Sun E.
83 56 32
8319
82 32 43
8881
81 9 7
8841
79 45 43
mt
4
a Arietis W.
8129 44
3066
82 68 11
8093
84 26 30
8009
85 54 41
8106 1
Aldebaran W.
51 11 3
80W
52 39 15
zm
54 722
8106
65 35 25
8109
Saturn W.
28 37 42
8114
30 534
81U
31 33 28
8118
33 1 22
8114 '
Mars E.
23 6 56
3800
21 42 54
8896
20 19 11
8841
18 55 47
8860 1
Regrulus E.
30 14 36
8073
28 45 54
8086
27 17 27
8099
25 49 15
8111 1
Sun E.
72 51 33
8897
71 29 13
8404
70 7 1
8411
68 44 67
8418 ,
5
Aldebaran W.
62 54 45
3m
64 22 27
8194
65 60 7
8196
67 17 46
81«!
Saturn W.
40 20 39
8118
41 48 27
8118
43 16 15
8118
44 44 3
8119 1
Pollux W.
18 35 55
8078
20 4 31
8081
21 33 4
8089
23 1 35
8088 \
Sun E.
61 56 18
8444
60 34 51
8417
69 13 28
8460
67 62 8
84*4
6
Aldebaran W.
74 35 36
8180
76 3 9
8180
77 30 42
8199
7868 6
8190 ;
Saturn W.
52 2 57
8117
53 30 46
8116
54 58 36
8116
56 26 27
8118
Pollux W.
30 23 54
8087
31 52 20
8087
33 20 47
8006
34 49 14
8094
Sun E.
51 6 10
8409
49 45 3
8403
48 23 66
8403
47 2 49
***!
7
Aldebaran W.
86 16 31
8190
87 44 16
8118
89 12 4
8116
90 39 65
8111
Saturn W.
63 46 18
8103
65 14 25
8000
66 42 36
8006
68 10 61
80OI
Pollux W.
42 11 53
8077
43 40 31
8078
45 9 13
8071
46 37 58
8068
Sun E.
40 17 1
8ai
38 55 46
8163
37 34 29
8440
36 13 8
8446
13
Sun W.
96 55 42
8198
28 23 16
8119
29 61 2
8110
31 19 0
1
8101 *
Jupiter E.
96 17 5
9778
94 42 2
976i
93 6 48
9787
91 31 24
9740 <
14
Sun W.
38 4142
80«
40 10 50
8013
4140 11
8008
43 9 43
1
Jupiter E.
83 31 36
9707
81 55 5
9608
80 18 23
9689
78 41 29| Ml
Foroalbaot E.
91 36 40
9888
90 4 0
9876
88 31 9
9806
86 68 71 98«
a Pegasi E.
11143 41
8118
110 15 53
8100
108 47 43
8009
107 19 12 8007
15
Sun W.
50 40 28
9878
62 11 14
9963
63 42 14
9989
66 13 27 9949 ,
Jupiter E.
70 34 2
98r
68 55 57
-"
67 17 39 9619]
66 39 10 1 9610
XII.
OCTOBER, 1855.
157
GREENWICH MEAN
TIME.
II
LUNAR DISTANCES.
1^
Star** Name
P. U
P. L.
P. L.
P. L.
11
and
Midnight.
of
XVb.
of
xvmh.
of
XXlh.
of
PMilioo.
Diff.
DiC
Dtir.
diae;
O 1 II
O 1 N
O 1 N
O 1 II
1
a Pegasi W.
93 55 44
S10O
95 22 42
818T
96 40 11
8906
98 15 13
8981
a Arietis W.
51 32 47
9896
52 55 11
3907
54 27 21
9918
55 59 17
9099
Aldebaran W.
21 37 55
sias
23 5 21
8110
24 33 18
8091
26 1 39
8on
Pollux E.
24 5 47
3807
22 3128
3838
20 57 30
9888
19 23 52
9864
Mars E.
52 4 38
8033
50 34 54
8089
49 5 29
8055
47 36 24
8071
Regulus E.
60 43 10
3809
59 8 54
3836
57 34 59
9841
56 1 24
9866
Sun E.
101 2 57
S148
99 35 46
8164
98 854
8181
96 42 22
S19T
2
a Arietis W.
63 35 31
398S
65 6 5
3988
66 36 27
8009
68 637
8019
Aldebaran W.
33 26 8
80M
34 55 13
8066
36 24 16
8066
37 53 20
8080
Mara E.
40 15 47
S148
38 48 35
8161
37 21 39
8174
35 54 59
8188
Regulua E.
48 18 12
3997
46 46 28
3941
45 15 1
9964
43 43 50
9966
Sun E.
89 34 13
8309
88 0 25
8989
86 44 53
8994
85 20 35
8807
3
a Arietis W.
75 34 30
80a7
77 3 32
8066
78 32 25
8079
80 1 9
8070
Aldebaran W.
45 17 29
ion
46 45 59
8067
48 14 25
8091
49 42 46
8004
Saturn W.
22 46 46
8138
24 14 22
8138
25 42 4
8118
27 9 52
8116
Mars E.
28 45 40
83M
27 20 36
8308
25 55 47
8989
24 31 14
8994
Regius E.
36 11 49
8036
34 42 9
8089
33 12 44
8050
31 43 33
8061
Sun E.
78 22 31
8803
76 59 31
8813
75 36 42
8880
74 14 3
8868
4
a Arietis W.
87 22 45
SIK)
88 50 43
8116
90 18 33
8193
91 46 15
8180
Aldebaran W.
57 3 24
Sill
58 3120
8114
59 59 12
8118
6127 0
8190
Saturn W.
34 29 15
8114
35 57 7
8116
37 24 58
8115
38 52 49
8116
Mars E.
17 32 44
8381
16 10 6
8407
14 47 57
8488
13 26 23
8478
Regulus E
24 21 19
8134
22 53 38
8187
2126 13
8161
19 59 5
8197
Sun E.
67 23 1
MS3
66 1 11
8480
64 39 28
8484
63 17 50
8480
5
Aldebaran W.
68 45 21
8139
70 12 56
8199
71 40 30
8180
73 8 3
8180
Saturn W.
46 11 50
8119
47 39 36
8119
49 7 22
8119
50 35 9
8118
Pollux W.
24 30 5
808S
25 58 33
8005
27 27 1
8067
28 55 28
8086
Sun E.
56 30 52
8486
55 039
8466
53 48 28
8450
52 27 18
8461
6
Aldebaran W.
80 25 51
8137
8153 28
8196
83 21 7
8194
84 48 48
8133
Saturn W.
57 54 21
8113
59 22 16
8110
60 50 14
8108
62 18 14
8106
Pollux W.
36 17 43
8088
37 46 13
8089
39 14 44
8081
40 43 17
8078
Sun E.
45 41 42
8461
44 20 34
8460
42 59 25
8456
41 38 14
8466
7
Aldebaran W.
92 7 51
810O
93 35 50
8106
95 3 54
8101
9632 2
80O7
Saturn W.
69 39 11
8069
71 7 35
8005
7236 3
8080
74 4 35
8076
Pollux W.
48 6 47
8066
49 35 40
8061
51 4 37
8067
52 33 39
8064
Sun E.
34 5144
8448
33 30 16
8440
32 8 45
8487
30 47 10
8489
13
Sun W.
32 47 9
8001
34 15 30
8003
35 44 2
8079
37 12 46
8009
Jupiter E.
89 55 49
3741
8820 3
9783
8644 5
9738
85 7 56
9716
14
Sun W.
44 39 27
8018
46 9 24
8003
47 39 33
9998
49 9 54
9988
Jupiter E.
77 4 23
3873
75 27 5
9068
73 49 36
9666
72 11 55
9646
Fomalhaut E.
85 24 55
3850
83 51 32
9849
82 17 59
9885
80 44 17
9890
a Pegasi E.
105 50 22
8063
104 21 13
8088
102 51 47
8038
10122 3
8010
15
Sun W.
56 44 53
3981
58 16 32
9999
59 48 24
9910
61 20 30
9800
_
Jupiter E.
64 0 28
3601
62 21 34
9501
60 42 27
9689
59 3 7
9579 1
158
OCTOBER, 1855.
XIII.
GREENWICH MEAN
TIME.
1
LUNAR DISTANCBa
Sur** Naim
P. L.
P. U
P.L.
P.L.
and
Nooo.
of
mh.
of
Vlh.
of
IXh.
of
PmIUoo.
DUC
Diff.
DIflr.
Diff
O 1 u
O 1 M
O 1 N
O f u
15
Fomalhaut E.
79 10 24
3B19
77 36 21
9819
76 2 9
9805
74 27 48
9799
a Pegasi £.
99 53 3
9B97
96 2146
9980
96 51 14
9979
95 20 27
9969
16
Sun W.
62 52 50
9809
64 25 23
9878
65 58 10
9867
67 31 11
9855
Antares W.
17 34 53
9009
19 14 32
9M7
20 54 26
9545
22 34 36
9089
Jupiter E.
57 23 34
9604
55 43 50
9008
54 3 51
9544
52 23 39
9610
Fomalhaut E.
66 34 14
9T79
64 59 10
9797
63 24 0
9704
61 48 45
9709
a Pegasi E.
87 43 6
9911
86 11 1
9901
84 38 44
9894
83 6 17
9807
17
Sun W.
75 19 55
9799
76 54 24
9788
78 29 9
fno
80 4 9
9f765
AnUTCS W.
30 59 33
9476
32 41 20
9400
34 23 22
9454
36 5 40
94a
Jupiter E.
43 59 29
9188
42 17 59
9480
40 36 17
9471
38 54 23
9469
Fomalhaut E.
53 51 58
9701
52 16 39
9705
50 4125
9770
49 6 17
9n5
a Pegasi E.
75 21 52
9857
73 48 38
9809
72 15 18
9849
70 41 54
9949
18
Sun W.
88 2 51
9707
89 39 22
9095
91 16 9
9094
92 53 11
9679
Antares W.
44 41 7
9387
46 25 0
tm
48 9 8
9967
49 53 32
9955
Jupiter E.
30 21 54
9494
28 38 53
9417
26 55 43
9419
25 12 25
9409
Fomalhaut E.
41 13 37
9848
39 40 3
9805
38 659
9894
36 34 33
9on
a Pegasi E.
62 54 41
9899
61 21 21
98»7
59 48 7
1604
58 15 2
9679
a Arietis E.
103 43 16
9461
102 0 54
9499
100 18 15
9498
98 35 20
9416
19
Sun W.
101 2 17
9015
102 40 52
9004
104 19 42
9508
105 58 47
9061
Antares W.
58 39 31
9901
60 25 29
9991
62 11 41
9981
63 58 9
99)0
a Pegasi E.
50 33 20
9909
49 2 7
99n
47 31 26
9009
46 1 24
9oa
a Arietis £.
89 56 42
9309
88 12 12
9M9
86 27 27
9940
84 42 27
9n9
20
Sun W.
114 17 52
9S90
115 58 23
9591
117 39 7
9019
119 20 4
1609
Anures W.
72 54 11
9399
74 42 5
9911
76 30 13
9905
78 18 33
9196
a Pegasi E.
38 44 43
tSTJ
37 21 3
8419
35 59 1
9519
34 38 51
Mil
a Arietis E.
75 54 7
9988
74 7 50
9989
72 21 24
9974
70 34 47
9967
Aldebaran E.
106 11 9
9971
104 24 27
9909
102 37 31
9951
100 50 19
9149
21
Antares W.
87 23 15
9109
89 12 44
9158
91 2 23
9147
92 62 10
9141
aAquilM W.
48 8 32
8990
49 20 21
9815
50 33 56
9708
61 49 11
9709
Jupiter W.
13 7 29
9981
14 52 44
9989
16 39 0
9950
18 26 4
9999
a Arietis E.
61 39 90
9941
59 51 53
99W
58 422
9995
56 16 46
9914
Aldebarao E.
91 51 24
9904
90 3 3
9100
88 14 34
9190
86 25 56
9187
Saturn E.
114 18 28
9178
112 29 27
9171
110 40 16
9104
108 50 54
9166
22
aAquils W.
58 26 19
mi
59 49 13
9919
61 13 03
9976
62 37 43
1994
Jupiter W.
a Arietis E.
27 28 25
91S7
29 17 43
9159
31 7 13
9159
32 56 53
9147
47 18 47
9941
45 31 20
9945
43 43 59
99li
41 56 51
9966
Aldebaran E.
77 20 57
9109
75 31 42
9105
73 42 22
91tt
7152 58
9168
Saturn E.
99 42 3
9190
97 61 67
9199
96 148
9190
94 11 35
tm
23
aAquil* W.
69 61 34
9089
71 19 57
9070
79 48 43
1009
74 17 51
9616
Jupiter W.
42 6 32
9197
43 56 34
9199
45 46 34
9199
47 36 33
9141
Fomalhaut W.
37 8 46
1 90«
38 47 2
9099
40 26 8
9549
42 5 59
9091
62 46 42
1 9174
60 57 36
9m
59 834
9101
57 19 38
9166
Saturn E.
85 0 6
' 9I9S
83 9 40
9190
81 19 35
9199
79 29 25
9116
Pollux E.
106 30 67
9119
104 40 16
91 U
102 49 40
9119
100 59 9
9199
XIV.
OCTOBER, 1855.
159
GREENWICH MEAN
TIME,
LUNAR DISTANCES.
a
StMt'n Namd
If.l.
P L.
M*
PL.
- ?
QDd
Midnigbi.
1 i>r
xyii.
oi
xvnih.
oT
XXIK
of
|S
FmMan.
DflC
Dtm
tmr.
txtf.
t) i H
O J JJ
O 1 «
O J n
tfi
Fommlhaut K,
72 53 1&
mn
71 18 42
71 1»
69 43 59
aTft*
68 9 10
tfn* '
d Fe^tUii
E.
9a 40 23
f»Aa
92 18 8
Mi\
90 46 41
^m
89 15 0
»9P
10
Sum
w.
G^ 4 21
384^1
70 37 57
3B33
72 n 42
%»
73 45 41
«ti
A ntaries
W.
24 15 3
!UkZJ
25 55 46
aAio
27 36 40
:M1H
29 18 2
■i4in
JupJU^r
K
5t) 43 15
!ZMf7
49 2 30
S»JT
47 21 49
•am
45 40 46
»tfT
FiirniLthaut K.
r^O 13 27
Tm
58 38 7
mm
57 2 45
arsT
55 27 21
^Bt
a Pegaai
E.
81 33 41
lew
80 0 56
^»Ta
78 28 2
IHM
76 55 0
9B0I
17
Situ
W,
SI 30 32
^ia
83 14 50
TTii
84 50 35
77M,
86 26 35
T7t»
A ntnres
VV.
37 48 14
^mi
39 31 3
^^i
41 14 8
tuoe
42 57 30
^1^18
JupLler
K.
37 12 17
2ua
35 m 57
UIA
33 47 27
^4X7
32 4 45
snii
FoniAlhniit K.
47 31 17
TTeJA
45 .'jfi an
fTtt
44 21 53
WQS|
42 47 35
3831
9 Fegtiai
K.
60 6 2S
^^i
67 35 0
wtm
66 1 32
3049
64 28 5
3949
19
Si»
W.
04 3n 29
9060
OC 8 3
»4S
97 45 52
'3m
99 23 57
Qsn
Anlarev
W.
51 38 19
^»U
53 23 8
^S3S
53 8 20
93»
50 53 46
3St]
Jupiter
K.
23 29 3
^4M
S] 45 37
lum
20 2 13
Mia
18 18 37
3431
FoiTialhaut E.
35 2 56
am
33 32 15
ao-Jt)
32 2 35
sm9
30 34 0
31 A]
0 Peg^sL
E,
56 42 0&
3889
55 9 27
^me
53 37 3
WI'J
52 5 0
«ni
a Ari^iii
E.
96 52 10
;mo&
95 8 41
i&m
93 24 56
^»S2
91 40 56
3ra
19
Sys*
W.
107 3e ft
4571
109 17 43
9fitii
1 10 57 32
s^\
1 12 37 35
^Am
Antares
W,
65 44 53
3^60
67 31 52
aisfi
69 19 5
ffMI
71 »131
^nt
^ l*egjsi»i
11
44 32 7
9(jm
43 3 40
3133
41 36 n
n\m
40 9 40
i3sa
a Ariflia
K.
82 37 14
2334
81 11 49
saia
79 26 9
Tm
77 40 14
3399
do
Son
W.
131 1 13
3494
122 42 33
'i-tm
124 24 8
3479
126 5 52
M:n
Amarus
W.
80 7 6
21*1
81 55 51
aian
83 14 49
DtT3
85 33 57
aiffT
tt Feg-itui
K,
33 20 50
Wll-2
32 5 19
WJ3
30 52 43
41*3
29 43 32
4417
a Arietift
K.
68 47 39
^JfiO
67 1 1
3333
65 13 55
?J^
63 26 40
tMff
Aldcba^raiL
E.
M9 2 54
2330
97 15 SO
a»2s
95 27 34
ti^ns
93 39 35
aau
21
An lares
W.
94 42 6
2137
96 32 9
11J3^
9S22 20
9l»
100 12 37
3m
41 Aqullj*
W
53 5 5ft
Sfi'JO
54 24 11
3W:
55 43 43
a4&3
57 4 27
34^
Jupiter
w.
20 13 44
ajij
22 1 53
Sim
23 50 25
9ie-j
25 39 19
2114
& Ariel 19
E.
54 20 9
t^ai
52 41 30
Ji34
50 53 53
4539
49 6 18
ias6
Aldebaran
E.
84 37 9
5JiI
82 48 13
ai:«
80 50 12
2176
79 10 7 2173 II
Saturn
E.
107 1 23
!riA-2|
105 11 43
J148
103 21 57
3143
101 32 3
3]»
92
a Aqullw
W.
04 3 12
3 IP©
05 20 24
aiee
66 56 14
»m
68 23 39
ilLa
Jupiler
W.
34 46 40
a 14a
36 36 33
QMl
38 26 30
2m
40 16 30
2137
a Arietia
E.
40 9 55
QTti
38 23 10
2Jrt^
36 36 65
&il
34 50 57
2t9a
Aldeburati
K.
70 3 34
2\iih
68 14 14
2|0fl
66 25 0
^m
64 35 50
2171
Saturn
K.
02 21 U>
ai-^
m 31 1
3107
88 40 43
Sl«
86 50 24
31517
93
a Aquil«
W.
75 47 15
SM9
77 10 53
»0J9
78 46 43
aou
80 16 42
SOflfT
Jupiter
w.
49 20 29
3144
61 10 21
aue'
53 6 7
'ilSil
54 55 48
31iT
FomalhautW.I
43 45 29
SftOT
45 27 32
•am^
47 9 2
347t
48 50 34
WHO
AJdebaran
K.
55 30 52
ajoi
53 42 151
*-J03
51 53 50
^11
50 5 39,
tmj
Saltirn
E.
77 39 31
aras
75 49 2*^
3144
73 59 30
2140
72 9 4fl'
31AS
Pollux
E.
99 9 44
am
97 18 24
sLsg,
95 28 n
%\U
93 38 i
3130
160
OCTOBER, 1855.
XV.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
^^
SUr*! Name
P.L
P. L.
P.L.
PL.
^1
and
Noon.
of
mb.
of
Vlh.
of
IXK
of
Poaitioa
Difll
Dlff
Dlff.
Diff.
O 1 N
O 1 M
0 1 N
O 1 «
24
Jupiter
W.
56 45 21
31SS
58 34 46
3109
6024 1
3176
62 13 6
9193
Fomalhaut W.
50 33 4
SIM
52 15 28
3441
53 58 4
3436
56 40 49
3ai
Aldebaran
E.
48 17 48
9tt3
46 30 3
3343
44 42 40
3360
42 65 34
9300
Saturn
E.
70 20 9
3161
68 30 43
3109
66 41 28
3176
64 62 23
9104
Pollux
E.
9148 4
3144
89 58 12
3149
88 8 28
9166
86 18 63
9103
25
Jupiter
W.
71 15 28
3398
73 3 14
3939
74 50 43
3361
76 37 56
3909 '
Fomalhaut W.
64 15 32
343S
65 58 19
3441
67 40 56
3448
69 23 22
3403
Aldebaran E.
34 6 14
3S73
32 21 59
3404
30 38 30
3436
28 55 45
9109
Saturn
E.
55 50 30
3336
54 2 55
3348
52 16 39
3361
50 28 42
3374
Pollux
E.
77 14 25
3314
75 26 18
3336
73 38 27
3330
71 60 63
3348
26
Jupiter
W.
85 29 23
3338
87 14 41
3344
88 59 37
3367
90 44 13
9m
Fomalhaut W.
77 53 I
3499
79 34 16
3610
81 15 15
3023
82 56 67
9586
Saturn
E.
41 39 18
3368
39 54 35
3371
38 10 19
3381
36 26 31
3410
Pollux
E.
62 57 49
3316
61 12 10
3337
59 26 50
3343
67 41 61
3367
Regulus
E.
99 30 49
3331
97 45 25
3339
96 022
3368
94 16 39
3368 I
Mare
E.
105 26 3
3601
103 44 51
3616
102 3 59
3630
100 23 27
9640 1
1
27
Jupiter
a Arietis
W.
99 21 31
3464
101 3 49
3170
102 45 44
94flr7
104 27 16
3604 '
W.
27 22 18
3736
28 58 24
3710
30 34 42
3710
32 11 9
3700
Saturn
E.
27 56 6
3630
26 14 35
3600
24 34 46
9aot
22 56 40
9039
Pollux
E.
49 2 38
3438
47 19 58
3466
46 37 41
9473
43 66 48
9488
Reffulus
E.
85 37 41
3448
83 55 14
3406
82 13 11
9483
80 31 32
9198
Mare
E.
92 6 23
3038
90 28 6
9046
88 50 13
9008
87 12 43
9001
Venus
E.
117 52 49
3636
116 12 11
3643
114 31 57
1560
112 62 6
96n
28
a Arietis
W.
40 13 42
3730
41 49 55
3739
43 25 57
97f7
45 1 48
9747
Pollux
E.
35 32 20
3609
33 52 42
3301
32 13 21
9aso
30 34 20
3618
Regulus
E.
72 9 12
3666
70 29 56
9303
68 51 4
9090
67 12 36
30n 1
Mare
E.
79 11 8
3709
77 36 0
3788
76 1 16
9806
74 26 66
3093
Venus
E.
104 38 56
3007
103 1 32
9086
101 24 32
9700
99 47 56
9739
29
a Arietis
W.
52 57 36
3806
54 31 58
3010
56 6 3
9899
57 39 53
90C9
Aldebaran
W.
23 9 27
aoio
24 39 27
9993
26 950
9978
27 40 30
9971
Recrulus
E.
59 6 8
3734
67 30 0
9741
55 54 14
9708
54 18 51
9n4
Mare
E.
66 40 56
3913
65 8 62
9^28
63 37 9
9940
62 5 48
9903
Venus
E.
91 50 59
S813
90 16 47
9839
8S 42 57
9040
87 9 31
9806 1
Sum
E.
126 37 12
0067
125 8 8
8074
123 39 26
0091
122 11 6
»'-!
30
a Arietis
W.
65 24 54
8906
66 57 6
9918
68 29 2
««
70 0 40
•u'
Aldebaran W.
35 15 4
3909
36 45 56
3976
38 16 39
9980
39 47 17
9986
Ref^ulus
E.
46 27 17 »55
44 54 1
9871
43 21 5
9887
41 48 29
9909
Mare
E.
54 34 12 MIS
53 4 53
8060
51 36 52
0073
60 7 9
3097
Venus
E.
79 27 45* SMff
77 56 28' 3906
76 25 31
3960
74 64 53
9906
Sun
E.
114 54 32
3191
113 28 12' t900
112 2 11
tm
110 36 28
OiOO
31
a Arietis
W.
77 35 12
MOI
79 5 23 soil
80 36 22
9099
82 5 8
0001
Aldebaran W.|
47 18 27
0018
48 48 17 0030
50 17 57
0036
5147 26
ooa 1
Saturn
W.
25 1 30
0036
26 30 59 8037
28 0 26
mm
29 29 53
3000 i
Regulus
E.
34 10 18 wn
32 39 36 SB91
31 9 12
0000
29 39 6
0019
Mare
E.
42 47 5l! siw
41 20 48 0107
39 53 69
0179
38 27 25
3191 '
Sow
E.
103 32 4 S105
1
102 7 58' ton
100 44 6
0339
99 20 28
0341
XVI.
OCTOBER, 1855.
161
GREENWICH MEAN
TIME.
1
LUNAR DISTANCES.
1^
Sur** NuxM
P. L.
P. L.
P. L.
P. L.
*l
and
Midnight.
of
XVh.
of
xvmh.
of
XXIh.
of
4^
24
Position
Diff.
Diff.
9199
Diff.
Diff.
Jupiter
W.
O ( M
64 2 0
3190
O 1 II
65 50 43
O 1 H
67 39 12
3906
69 27 28
9916
Fomalhaut W.
57 23 41
34%
59 6 36
943A
60 49 35
3434
62 32 36
9496
Aldebaran
E.
41 8 49
39B4
39 22 26
9303
37 36 29
3334
35 51 5
9347
Saturn
E.
63 3 31
9194
61 14 54
9303
59 26 31
3313
57 38 22
9934
Pollux
E.
84 29 29
9179
82 40 19
3183
80 51 25
3193
79 2 47
3204
25
Jupiter
W.
78 24 50
9374
80 11 27
3987
81 57 45
3800
83 43 44
9814
Fomalhaut W.
71 5 41
9480
72 47 51
3469
74 29 48
3478
76 11 32
9480
Aldebaran
E.
27 13 48
9fi00
25 32 43
3558
23 52 50
3616
22 14 17
9676
Saturn
E.
48 42 5
9980
46 55 49
3304
45 9 56
3390
43 24 25
9336
Pollux
E.
70 3 37
9909
68 16 41
3974
66 30 4
3366
64 43 47
9301
26
Jupiter
W.
92 28 26
9380
94 12 17
3405
95 55 45
9491
97 38 50
9436
Fomalhaut W.|
84 36 19
95A9
86 16 20
3671
87 55 55
9S66
89 34 57
9603
Saturn
E.
34 43 11
9481
33 0 21
3453
31 18 2
9477
29 36 16
9503
Pollux
E.
55 57 15
9J78
54 13 1
3380
52 29 10
3106
50 45 42
3499
Reffulus
E.
92 31 19
9364
90 47 21
3390
89 3 45
9415
87 20 31
9431
Mara
E.
98 43 18
9S61
97 3 30
3578
95 24 5
9505
93 45 3
9611
27
Jupiter
W.
106 8 23
9»99
107 49 5
9639
109 29 24
9660
111 9 16
3678
a Arietis
W.
33 47 41
9704
35 24 15
9704
37 0 49
9707
38 37 19
9718
Saturn
E.
21 17 24
9571
19 40 5
9731
18 3 53
9780
16 28 59
3650
Pollux
E.
42 14 18
9S06
40 33 12
3634
38 52 32
9541
37 12 16
9666
ReguluB
E.
78 50 16
9dlA
77 9 24
3531
75 28 56
9550
73 48 52
9567
Mars
E.
85 35 37
9098
83 58 54
9716
82 22 35
9734
80 46 40
9751
Venus
E.
111 12 40
9806
109 33 38
6613
107 55 0
9699
106 16 45
9649
28
a Arietis
W.
46 37 26
9756
48 12 53
9768
49 48 2
9779
51 22 58
9799
Pollux
E.
28 55 49
994S
27 17 53
3671
25 40 34
9707
24 4 4
9759
Reffulus
E.
65 34 31
9656
63 56 50
9679
62 19 33
9689
60 42 39
9707
Mars
E.
72 52 57
9S49
71 19 23
9860
69 46 11
9877
68 13 23
9894
Venus
E.
98 11 45
9740
96 35 58
9757
95 0 34
9n6
93 25 35
9794
29
a Arietis
W.
59 13 26
9856
60 46 43
9868
62 19 43
9880
63 52 27
9894
Aldebaran W.
29 11 19
9966
30 42 14
9964
32 13 12
9964
33 44 10
9961
Regulus
E.
52 43 49
9791
51 9 9
9B78
49 34 51
9634
48 0 54
9630
Mars
E.
60 34 48
9979
59 4 9
9996
57 33 50
8011
56 3 51
8097
Venus
E.
85 36 27
9881
84 3 44
9806
82 31 23
9916
80 59 23
9089
Sun
E.
120 43 6
»196
119 15 27
8148
117 48 9
8160
116 21 11
8176
30
a Arietis
W.
71 32 3
9966
73 3 12
9967
74 34 6
9977
76 4 47
9990
Aldebaran
w.
41 17 48
9999
42 48 11
9999
44 18 25
8006
45 48 30
8018
Regulus
E.
40 16 13
9917
38 44 16
9039
37 12 38
9947
35 41 19
9969
Mars
E.
48 38 43
8109
47 10 36
8116
45 42 45
8199
44 15 10
8143
Venus
E.
73 24 34
8010
71 54 34
8034
70 24 61
8089
68 55 27
8063
Sun
E.
109 11 2
8961
107 45 53
8366
106 21 1
8979
104 56 25
8999
31
a Arietis
W.
83 34 42
8049
85 4 3
8060
86 33 14
8069
88 2 14
8068
Aldebaran W. 1
53 16 43
8069
54 45 52
8067
56 14 54
8064
57 43 48
8069
Saturn
W.
30 69 17
8049
32 28 38
8045
33 57 55
8049
35 27 7
8063
Reffulus
E.
28 9 17
8034
26 29 47
8053
25 10 40
8071
23 41 55
8093
Mars
E.
37 1 5
8909
35 34 58
8318
34 9 4
8334
32 43 23
8984
Sun
E.
97 57 4
8363
96 33 52
8361
95 10 51
8879
93 48 2| 836iJ
21
162
NOVEMBER, 1855.
I.
AT GREENWICH APPARENT
NOON.
i
i
1
i
B
THE SUN'S
SIdMwl
Tim.
oruw
SUnidl-
•ii>M.r
puainf
the
Mnid-
tan.
Eqoatioaor
Time,
to be
eubtracted
from
Apparent
7V««.
Diff.
lor
Ihour.
a.
0.066
Apparent
Right AjcoMlon.
Dili: for
Ihour.
Apparmt
Declination.
Diflr.
for
Ihour.
48.30
Semi-
diameter.
Thur.
1
14 24 30.60
9.790
O 1 II
S. 14 21 7.5
1^
9.84
66.91
m. a.
16 16.88
Fri.
2
14 28 25.96
9.823
14 40 20.0| 47.72
16
10.08
67.02
16 18.07
0.033
Sat.
3
14 32 22.14
9.857
14 59 18.3 47.12
16
10.32
67.13
16 18.45
0.001
^Sun.
4
14 36 19.15
9.891
15 18 2.1 46.50
16
10.56
67.24
16 17.99
0.036
Mon.
5
14 40 16.99
9.925
15 36 30.8' 45.87
16
10.80
67.36
16 16.70
0.071 1
Tues.
6
14 44 15.68
9.960
15 54 44.1
46.22
16
11.03
67.48
16 14.57
0.106
Wed.
7
14 48 15.22
9.996
16 12 41.6
44.55
16
11.26
67.60
16 11.59
0.141
[Thur.
8
14 52 15.61
10.032
16 30 22.9
43.86
16
11.49
67.72
16 7.76
0.176
Fri.
9
14 56 16.85
10.068
16 47 47.4
43.15
16
11.72
67.84
16 3.10
0.211
Sat.
10
15 0 18.94
10.103
17 4 54.8
42.43
16
11.95
67.96
15 57.58
1
0.2461
[Sun.
11
15 4 21.89
10.188
17 21 44.7
41.69|16
12.18
68.08
15 51.21 :o.282;
Mon.
1
12
15 8 25.67
10.173
17 38 16.6
40.93
16
12.40
68i20
15 44.01
0.318;
Tues.
13
15 12 30.29
10.208
17 54 30.1
40.16
16
12.62
68.32
(
15 35.97 0.353
Wed.
14
15 16 35.75
10.243
18 10 24.8
39.87116
12.84
68.44
15 27.08 0.3881
Thur.
15
15 20 42.06
10.277
18 26 0.3
38.56
16
13.06
68.56
15 17.35
0.423
Fri.
16
15 24 49.20
10.812
18 41 16.1
37.73
16
13.28
68.68
15 6.81
0.458
Sat.
17
15 28 57.16
10.347
18 56 11.9
36.88
16
13.50
68.79
14 55.45
0.492
Sim.
I
18
15 33 5.93
10.382
19 10 47.4'36.0S
16
13.71
68.91
14 43.27
0.526
Mon.
19
15 37 15.51
10.416
19 25 2.2
35.16
16
13.92
69.02
14 30.27
0.560
Tues.
20
15 41 25.91
10.449
19 38 55.9
34.27
16
14.12
69.13
14 16.47
0.593
Wed.
21
15 45 37.11
10.482
19 52 28.0
33.38
16
14.31
69.24
14 1.86
0.626
Thur.
22
15 49 49.09
10.515
20 5 38.4
32.47
16
14.50
69.35
13 46.47
0.659
JFri.
23
15 54 1.88 10.548
20 18 26.7
31.54
16
14.68
69.46
13 30.29
0.692
Sat
24
15 58 15.45
10.580
20 30 52.6
30.59
16
14.86
69.56
13 13.32
0.724
Sun.
25
16 2 29.78
10.612
20 42 55.6
29.63
16
15.04
69.66
12 55.60
1
0.756;
Mon.
26
16 6 44.87
10.643
20 54 35.4 23.66|16
15.21
69.76
12 37.12
0.787!
Tues.
1
27
16 11 0.72
10.674
21 5 51.8 27.68
16
15.38
69.86
12 17.88
0.817
,Wed.
28
16 15 17.30
10.705
21 16 44.6 26.68
16
15.54
69.96
11 57.91
0.847
Thur.
29
16 19 34.62
10.735
21 27 13.2 25.67
16
15.70
70.05
11 37.21
0.877,
'Fri.
30
16 23 52.65
10.764
21 37 17.4 24.65
16
15.85
70.14
11 15.80
0.907 1
'Sat
31
16 28 11.37
10.791
S.21 46 57.0 23.62
16
16.00
70.23
10 53.69
0.9S5
Nom — Mean Time of the Semldlvn
M«r pusinf max be fbond by Mbuaainf 0» 18 ftom the Stderaal Tlma.
II.
NOVEi^BER, 1855.
163
GREENWICH MEAN TIME.
4
1
1
"3
THE
MOON'S
BorisHiUl Panlkz.
Meridian Ftan««.
A«B.
Noon.
Hidoi(bu
NOOD.
Wflr. for
Ihour.
Midnight.
DlflT. for
Ihour.
DiflT. for
Ihour.
I
2
3
14 5^.0
14 50.8
14 48.4
14 53.0
14 49.2
14 48.2
5^ 4f.3
54 22.3
54 13.4
—0.99
0.58
—0.16
54 30.6
54 16.6
54 12.7
—0.80
—0.87
-N).02
h. m.
18 34.0
19 18.2
20 0.0
m.
1.91
1.79
1.71
d.
21.4
22.4
23.4
4
5
6
14 48.6
14 51.3
14 56.1
14 49.6
14 53.6
14 59.1
54 14.1
54 23.9
54 41.6
+0.22
0.59
0.87
54 17.8
54 31.9
54 52.8
0.41
0.74
1.00
20 40.3
21 20.0
22 0.3
1.67
1.67
1.71
24.4
25.4
26.4
7
8
9
15 2.5
16 10.2
15 18.6
15 6.3
15 14.3
15 22.8
55 5.5
55 33.3
56 3.8
1.10
1.22
1.80
55 19.1
55 48.3
56 19.4
1.16
1.27
1.80
22 42.3
23 27.2
6
1.81
1.95
27.4
28.4
29.4
10
II
12
15 27.1
15 35.4
15 43.2
15 31.2
15 39.4
15 46.9
56 34.9
57 5.3
57 34.1
1.28
1.24
1.16
56 50.2
57 20.0
57 47.7
1.27
1.20
1.10
0 15.8
1 8.7
2 5.6
2.11
2.29
2.43
0.7
1.7
2.7
13
14
15
15 50.4
15 56.9
16 2.6
15 53.8
15 59.9
16 5.0
58 0.6
58 24.4
58 45.2
1.06
0.92
0.80
58 13.0
58 35.2
58 54.4
0.99
0.86
0.73
3 5.2
4 5.4
5 3.9
2.49
2.47
2.37
3.7
4.7
5.7
16
17
18
16 7.4
16 11.2
16 13.9
16 9.5
16 12.7
16 14.5
59 2.8
59 16.7
59 26.3
0.67
0.49
0.28
59 10.3
59 22.1
59 28.9
0.58
0.41
+0.14
5 59.3
6 51.6
7 41.3
2.24
2.12
2.04
6.7
7.7
8.7
19
20
21
16 14.8
16 13.8
16 10.3
16 14.6
16 12.4
16 7.7
59 29.7
59 25.9
59 13.3
H-0.00
—0.34
0.72
59 28.9
59 20.7
59 3.5
—0.15
0.52
0.92
8 29.6
9 18.1
10 7.5
2.01
2.04
2.10
9.7
10.7
11.7
22
23
24
16 4.4
15 56.1
15 45.8
16 0.5
15 51.1
15 40.3
58 51.4
58 21.2
57 43.9
1.09
1.4.S
1.65
58 37.3
58 3.2
57 23.7
1.26
1.56
1.72
10 59.1
11 53.4
12 49.7
2.21
2.31
2.37
12.7
13.7
14.7
25
26
27
15 34.5
15 23.1
15 12.4
15 28.8
15 17.6
15 7.5
57 2.7
56 20.6
55 41.2
1.77
1.72
1.54
56 41.6
56 0.4
55 23.4
1.77
1.65
1.42
13 47.0
14 43.2
15 36.6
2.36
2.29
2.15
15.7
16.7
17.7
28
29
30
15 8.0
14 55.8
14 50.9
14 59.2
14 53.0
14 49.6
55 7.2
54 40.3
54 22.8
1.27
0.95
0.52
54 52.8
54 30.2
54 17.8
1.12
0.72
—0.32
16 26.3
17 12.3
17 55.1
1.99
1.85
1.74
18.7
19.7
20.7
31
14 48.9
14 48.9
54 15.2
—0.12
54 15.1
+0.11
18 35.8
1.67
21.7
164
NOVEMBER, 1855.
III.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Ri^ht A«c«Mioo.
Diar.
fori in.
DecUnalkm.
forlm.
Hour.
Ri^ht Ascension.
Diflr.
forlm.
Declination.
DMT.
fcrlm.
THU
RSDA
Y 1.
SATURDAY 3.
h. m. 8.
a.
O 1 N
H
h. m. •.
0.
O 1 N
«
0
8 39 35.53
2.1127
N 23 52 43.4
7408
0
10 15 4.25
1.8809
N.15 56 16.1
11.708
1
8 41 42.13
3.1071
23 44 51.8
7411
1
10 16 56.98
13773
15 44 32.2
11.783
2
8 43 48.39
3.101ft
23 36 51.0
8418
2
10 18 49.49
1.8786
16 32 44.7
11498
3
8 45 54.32
%0960
23 28 50.1
8.116
3
10 20 41.79
1.8688
15 20 63.6
11461
4
8 47 59.92
3.0003
23 20 40.1
8.916
4
10 22 33.87
14688
16 8 59.0
11440
5
8 50 5.18
3.0648
23 12 24.2
8414
5
10 24 25.75
1.8698
14 57 0.9
11407
6
8 52 10.11
%m»
23 4 2.4
8.419
6
10 26 17.42
1.8506
14 44 59.4
19483
7
8 54 14.71
3.0780
22 55 34.7
8.610
7
10 28 8.89
1.8669
14 32 54.5
19.108
8
8 56 18.98
34)066
22 47 1.2
8406
8
10 30 0.17
14680
14 20 46.3
19.186
0
8 58 22.92
34881
22 38 22.1
8.700
9
10 31 61.25
14496
14 8 34.8
19419
10
9 0 26.54
3.0677
22 29 37.2
8.798
10
10 33 42.14
14486
13 56 20.0
19.779
11
9 2 29.85
%wa
22 20 46.8
8485
11
10 35 32.83
14484
13 44 02.1
19436
19
9 4 32.82
3.0470
22 1150.9
8.9n
12
10 37 23.34
14408
13 3141.0
19477
13
9 6 35.48
3.0417
22 2 49.5
9466
13
10 39 13.66
14S73
13 19 16.8
19.498
14
9 8 37.82
3.0864
21 53 42.6
9.166
14
10 41 3.80
14843
13 6 49.6
13.478 \
15
9 10 39.85
3.0S11
21 44 30.4
9.948
15
10 42 53.77
14318
12 54 19.3
13496 1
16
9 12 41.56
34066
21 35 12.9
9.887
16
10 44 43.56
14984
12 4146.1
194T7
17
9 14 42.96
34006
21 25 50.2
9.434
17
10 46 33.18
14967
12 29 10.0
13436
18
9 16 44.05
94166
21 16 22.2
9410
18
10 48 22.64
14939
12 16 31.0
13478
19
9 18 44.83
34104
21 6 49.0
9406
19
10 50 11.95
14907
12 03 49.1
13.790
20
9 20 45.30
34068
20 57 10.7
9460
20
10 52 1.12
14189
1151 4.5
19.787
21
9 22 45.47
34003
20 47 27.4
9.764
21
10 53 50.14
14168
1138 17.1
19418
22
9 24 45.34
1.9069
20 37 39.1
9447
22
10 55 39.02
14136
1125 27.0
19436
23
9 26 44.90
FR
1.0909
IDAY
N.20 27 45.8
2.
9430
23
10 57 27.78
SU
14118
NDAY
N.1 112 34.2
4.
13403
0
9 28 44.17
1.9669
N 20 17 47.6
10411
0
10 59 16.40
14008
N.IO 69 38.8
19446
1
9 30 43.14
1.9603
20 7 44.5
10400
1
11 1 4.91
1.6078
10 46 40.8
13491
2
9 32 41.81
1J7&6
19 57 36.6
10.169
2
11 2 53.29
14064
10 33 40.2
18489
3
9 34 40.19
1.9707
19 47 24.0
10.948
3
11 4 41.56
14086
10 20 37.1
18478
4
9 36 38.29
1*9660
19 37 6.7
10496
4
11 6 29.71
1.8018
10 7 31.6
18.1 U
5
9 38 36.10
IM\2
19 26 44.7
10.409
5
11 8 17.75
1.7997
9 64 23.6
13.168
6
9 40 33.63
IM65
19 16 18.2
10.479
6
11 10 5.68
1.7078
9 41 13.3
18.199
7
9 42 30.88
1.9616
19 5 47.1
10464
7
11 11 53.50
1.7961
9 28 0.6
18481
8
9 44 27.85
1.9479
18 55 11.6
10499
8
11 13 41.22
1.7944
9 14 45.6
18.970
0
9 46 24.55
1.9497
18 44 31.6
10.708
9
11 15 28.83
1.7999
9 128.3
18407
10
9 48 20.98
1.9369
18 33 47.2
10.776
10
11 17 16.35
1.7919
8 48 8.9
; i84a j
11
9 50 17.14
14336
18 22 58.5
10448
11
11 19 3.77
1.7896
8 34 47.3
' 13478
12
9 52 13.04
1.9996
18 12 5.6
10.918
12
11 20 51.09
1.7880
8 21 23.5
18.418
13
9 54 8.67
14969
18 1 8.4
10.987
13
1122 38.32
1.7864
8 7 57.7
13047
14
9 56 4.05
14S09
17 50 7.1
11464
14
11 24 25.46
1.7849
7 64 29.9
18.480 |,
15
9 57 59.17
14167
17 39 1.6
11.198
15
11 26 12.51
1.7636
741 0.1
13418 );
16
9 59 54.04
14196
17 27 52.2
11.190
16
11 27 69.48
1.7899
7 27 28.3
13448
17
10 1 48.66
1.9063
17 16 38.7
11.967
17
11 29 46.38
1.7810
7 13 54.6
; 18476 ,
18
10 3 43.03
1.9049
17 5 21.3
11.898
18
11 31 33.20
1.7799
7 0 18.9
18410
19
10 5 37.16
14001
16 53 59.9
11468
19
11 33 19.96
1.7786
6 46 41.4
! 18410
20
10 7 31.04
14m 2
16 42 34.7
11.469
20
11 35 6.66
1.7779
6 33 2.1
, 18470
21
10 9 24.69
14^23
16 31 5.7
11416
21
11 36 53.30
1.7770
6 19 21.0
18498
22
10 11 18.11
14fti4
16 19 32.9
11478
22
U 38 39.90
1.7781
6 5 38.2
' 18.799 '
23
10 13 11.30
14616
16 7 56.4
11410
23
11 40 26.45
1.7767
6 51 53.7
18.766 ;
24
10 15 4.25
1460O
N15 56 16.1
11.701
24
11 42 12.97
1.7769
M. 6 38 7.6
; 18.789 !
1
IV.
NOVEMBER, 1855.
165
. __
GREENWICH MEAN TIME,
■•
THE
MOON'S RIGHT ASCENSION AND DECUKATIOK.
Hour.
liif lU AKeiitiuci.
fori DL
0ediiuiion.
HlfT
fbr 1 m.
H^>uir.
Hi|Ht 4*oeti«iQn.
fur ] m.
tltodtJliia.t»nH
MO
NDAY
5.
WEDNESDAY 7.
h m. «.
B.
0 1 ir
M
h. m. «.
•■
O r It
II
D
11 42 19.97
I.TIVI
N. 5 38 7.6
13.7ficj
0
13 8 4.50
I.SIU
%. 5 40 29.G
ll.lW
1
11 43 59.46
LT7n
5 2-120.0 I3.*tti^|
1
13 9 54.55
],«H0
5 54 41.0
I4,ia3
2
11 45 45.91
1.7713
5 in ao.fl, i^.'<w|
2 !
13 11 44,68
1.S37I1
6 8 51.7
u.ni
3
U 47 mM
l.77JiJ
4 54i40,l
l^^HMi
3
13 13 34,90
\j^4m
6 23 1.6
14, IM
4
\\ 49 18.76
U7t77
4 42 48.0 lajiea
4
13 15 25.48
l.&iai
6 37 10.7
14.144
5
11 51 5.17
UTT^J
4 28 54.4. '^'^
5
13 17 16.17
j,$wa
6 51 18.9
14' t^
a
U 5*2 5L56
L773a
4 14 59.51 n^^
6
13 19 7.04
1,84A»
7 5 26,2
14,113
7
11 54 37.94
L77SI
4 1 3.1' l^-i*sn
f
13 90 58. U
IJBA-J)
7 10 32.5
WJ!^
B
U 50 24.3^2
i.rr^j
3 47 5.5 l3Jna
B
13 22 49.30
1.86«a
7 33 37.6
U,OTr
%
11 59 10.70
1. 7731
3 33 6.G ia,iJ93
9
13 24 40.87
1.8387
7 47 41.9
\kJ)^
10
11 50 57.00
1.7733
3 19 6.5 M.OII
10
13 26 32. .56
i.aaaa
S 144,8
ii.n^
\\
12 1 43.40
1.77^1
3 5 5.2 l4.»Jao
n
13 29 24.47
iJ^fi^O
e 15 46.6
14.01«l
12
12 3 29.91
L7737
2 51 2.6 li.ftiB
l^
13 30 16,60
i.s7in
e 29 47.0
1,1 .0»
13
\^ 5 10.34
1.7740
2 36 59.4 ii-oa-s
13
13 32 B,95
\miit
8 43 46.2
13JII3
u
153 7 2.79
1.7743
2 22 55.0 u.fwi
14
13 34 1.59
^.8783
8 57 43.9
wm
15
1^2 8 49,26
L77il^
3 8 49.6 1 uow
15
13 35 54.33
i.8eai
9 11 40.1
lUW
Id
12 10 35.70
I.77M
1 54 43.2 \kA\b
Hi ,
13 37 47.37
i.et)eo
9 25 34,9
\%sm
17
12 lii 23,20
I.TTlW
1 40 35,8 1 Ji,i30
17
13 39 40.65
\j&sm
9 39 29.0
l»JST3
1«
12 14 8.85
L.77C3
1 26 27.7; 14.IW
18
13 41 34,16
\M^
9 53 19.5
13.&44 '
19
VI 15 55,45
1.7770
I 12 18.7 ujfi7
19
13 43 27,92
1.861^
10 7 9,3
1,1.^1 A
20
12 17 42.00
t-7777
0 58 8.0 J4*i7o
20
13 45 21.94
».W)iM
10 20 57,3
i;i,7W
1 %\
12 19 2H,77
1.77S3
0 43 58,4
14JB3
21
13 47 16.21
1JCI63
10 34 43.4
1,'J.7M
m
12 21 15.51
\.rm
0 29 47.2
UJ*-i
22
13 49 10.74
1.9107
10 48 27.7
nriTss
S3
12 a3 2,31
i.7«a
N 0 15 35.4
14 .*W
23
13 51 5.53
\Mf^
Sll 2 0.9 ia.<580
TUl
^:SDA1
f 6.
THU
RSD.\
Y 8,
0
12 24 49,16
una
N. 0 1 23.0
U.7I1
0
13 53 0.59
1.0198
sll 15 50.1
13,060
1
12 26 36.07
L7«35
^0 12 50.0
IVl-30
I
13 54 55.1>2
i.9^a
1129 28.1
13.fi ifl
2
12 m 23.05
1,1S37
0 27 3.5
14.*a>
2
\ 13 5fi 51.53
IJKJJU
1143 4,0
13,478
3
12 30 10.11
L7S30
0 41 17.5
14.^
3
13 58 47.42
1J33^
1156 37.5
13.540
4
12 31 57.24
l.7flti3
0 5.1 31.8
14.143
4
14 0 43 60
L«388
12 10 8.7
)a,fiOO
5
12 33 44.4fJ
j,7ms
1 9 4fJ.*J
14.248
5
14 2 40.07
1,«13S
12 23 37.5
ia,4a8
6
12 35 31,77
U7B96
124 l.fi
H^osa
6
14 4 36.83
].tMfi8
19 37 3.fl
L3.416
7
12 37 19.19
1.7912
1 3a 16.9
y.a*7
7
14 6 33,99
i.3iaa
12 50 97.5
13,373
8
12 39 6.7t
l.7i™
I 52 32.4
H,^fiO
a
14 8 31.25
Lflftao
13 3 48.5 19.3517
9
12 40 54.34
|.7ft4a
2 6 48.11 U.wi
9
14 10 29.93
l.Wlfl
13 17 6.9 13.35^1
10
12 42 42,0B
J.7ll<n
2 21 4.0j U.^JS5
10
14 12 26.90
\jsm.
13 30 22.4 13.^ 1
H
12 44 29,94
l.70Prt
2 3.1 U>,9
14.36*
11
14 14 25.19
\:^Ah
13 43 35.9.! ixiefT
VZ
12 m 17.91
l.WCa
2 49 35.8
14.3W
12
14 16 23.80
l.SfTW
13 56 45.0, I3a3&
13
12 48 6.00
l.«05W
3 3 51.8
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13
14 18 22.73
l.»i*-^
14 9 51.91 m.nes
14
12 49 54.23
ym^
3 18 7,6 14.^
14
1 It 20 2L99
1.0904
14 22 55,81 I3.t/a8
15
12 51 42.59
J,S070
3 32 23,3 U.m
15
14 22 21.57
u^flw
14 35 56.6 i3.3ffT
le
12 53 31.07
i,Hoaa
3 46 38.9
11.2.^
16
14 24 21.49
J.0013
14 4 R 54.2 Ja.m
17
12 55 19.71
L&JliJ
4 0 54.2
14.*W
17
14 26 21.75
ajMwn
15 1 48.6 i3-h;»
18
12 57 8.50
1.0 NS
4 15 9,2
14,547
18
M 28 92.35
^.01 «
15 14 39 6 ia,Ma
10
12 58 57.43
i.ei6fl
4 29 23.8
Jl.ilQ
19
14 30 23.29
^J0lb4
15 27 27.2; i.i.7M
SO
13 0 46.52
1.8197
4 43 38,0
14,233
20
14 32 24.57
3.0243
15 40 11,41 ja,7in
%\
13 2 35,78
i.e*ii
4 57 51.7
u.-ns
21
14 34 26,21
a.oao-i
15 59 51.9
1^*47
m
13 4 25.91
l.8i-i3
5 12 4.9
14, an
22
\\ 36 28.20
a,<i3fli
16 5 28.8
i^.aea
23
13 6 14.81
l.W?tSJ
5 m 17.6
11, W7
23
14 38 30.55
iUMtXi
16 18 9.0
\^jm^
34
13 6 4.50
ue3([
S. 5 40 20.6, 14.1&*
24
U 40 33.25
i s.iMao
S.16 30 31,3
ia.4fi7
166
NOVEMBER, 1855.
GREENWICH MEAN TIME. 1
THE MOOITS BIGHT ASCENSION AND DECLINATION.
Hour.
DIflE;
forlm.
OwUnaikm.
Dur.
forlm.
Hovr.
ElfhtAflMDdOIL
Diff.
forlm.
DtcUnatioiL
DUE
forlm.
FRIDAY
9.
SUNDAY
u.
h. m. a.
t.
O 1 It
N
h. m. 0.
a.
O f «
n
0
14 40 33.25
3.0480
S 16 30 31.3
13.457
0
16 26 23.99
3.3663
8.24 47 16.6
7.689
1
14 42 36.31
SU)640
16 42 56.7
I3J90
1
16 28 46.17
3.3738
24 64 63.4
7447
2
14 44 39.73
3AW0O
16 55 18.1
13.333
2
16 31 8.74
3.3798
25 2 22.1
7410
3
14 46 43.51
2J09SI
17 7 35.4
13.368
3
16 33 31.69
3.3857
25 9 42.6
7.873
4
14 48 47.66
3.0733
17 19 48.5
13.188
4
16 35 55.02
3J830
25 16 54.8
7.133
5
14 50 52.18
3Ur78S
17 31 57.4
13.111
5
16 38 18.72
3.8083
25 23 58.6
6.908
6
14 52 57.07
2M46
17 44 2.0
13^06
6
16 40 42.79
3.4043
25 30 63.9
6.851
7
14 55 2.34
3.0910
17 56 2.1
11.964
7
16 43 7.23
3.4108
25 37 40.7
6.707
8
14 57 7.99
3.0675
18 7 57.6
11.888
8
16 45 32.03
3.4168
25 44 18.8
«4ftt
0
14 59 14.04
3.1041
18 19 48.6
11.810
9
16 47 57.19
3.4293
25 50 48.2
6417
10
15 1 20.48
3.1(07
18 31 34.9
11.733
10
16 50 22.71
3.4989
25 67 8.9
6.970
11
15 3 27.32
3.1173
18 43 16.5
11.653
11
16 52 48.58
3.4340
26 3 20.7
6.133
12
15 5 34.55
3.1388
18 54 63.3
IIJTTS
12
16 55 14.79
3.4388
26 9 23.5
5J7S
13
15 7 42.17
3.iao8
19 6 25.3
11.401
13
16 57 41.35
3.4454
26 15 17.2
5.890
14
15 9 50.17
3.ia08
19 17 52.4
11.408
14
17 0 8.24
3.4510
26 21 1.8
5.667
15
15 11 58.57
3.14SS
19 29 14.4
11.338
15
17 2 35.47
3.4565
26 26 37.3
5418
16
15 14 7.36
3.1496
19 40 31.3
11.336
16
17 5 3.02
3.4618
26 32 3.4
5.367 '
17
15 16 16.55
3.1565
19 51 43.0
11.148
17
17 7 30.89
3.4671
26 37 20.2
5.303
18
15 18 26.14
3.16S2
20 2 49.3
11UM8
18
17 9 59.07
3.4733
26 42 27.7
5JM5
19
15 20 36.13
3.1099
20 13 50.2
10.906
19
17 12 27.56
3.4173
26 47 25.7
4.887 '
80
15 22 46.52
3.1707
20 24 45.6
10.876
20
17 14 56.35
3.4893
26 52 14.1
4.738
21
15 24 57.32
3.183A
20 35 35.4
10.783
21
17 17 25.43
%4im
26 66 53.1
4466
22
15 27 8.53
3.1903
20 46 19.5
10.687
22
17 19 64.82
3.4930
27 122.3
4407
23
15 29 20.14
SATl
^1970
[JRDA
S.20 56 57.8
Y 10.
10.580
23
17 22 24.48
MOJ
3.4066
NDAY
S.27 6 41.8
12.
4.845
0
15 31 32.15
3.3097
&21 7 30.2
10.489
0
17 84 54.41
3.5013
&27 9 61.6
4j081
1
15 33 44.57
3.3106
21 17 56.7
10.388
1
17 27 24.62
3.5057
27 13 61.5
3.917
3
15 35 57.41
3.3174
2128 17.0
10.386
2
17 29 65.09
3.5100
27 17 41.5
3.751 j
3
15 38 10.67
3.33a
2138 31.1
10.188
3
17 32 25.82
3.5143
27 2121.6
3484 1
4
15 40 24.34
3.3SI3
21 48 39.0
lOJOm
4
17 34 66.80
8.5185
27 24 51.6
3417 ,
5
15 42 38.42
3.338-i
21 68 40.7
9.973
5
17 37 29.03
34335
27 28 11.5
3.850 \
6
15 44 52.91
3.3453
22 8 35.9
9.866
6
17 39 59.49
3.5963
27 3121.4
3489 i
7
15 47 7.83
3.2533
22 18 24.8
9.756
7
17 42 31.18
3.5300
27 34 21.1
3.913 i
8
15 49 23.17
3.3003
22 28 7.1
9.648
8
17 45 3.09
84335
27 37 10.6
8.740
9
15 51 38.93
3.3M1
22 37 42.7
9.587
9
17 47 35.21
34368
27 39 49.8
8408
10
15 53 55.10
3.37ao
22 47 11.6
9.435
10
17 60 7.53
84400
27 42 18.8
8406
11
15 56 11.69
3.3798
22 56 33.6
oaio
11
17 52 40.04
84433
27 44 37.3
8.393 1
12
15 58 28.68
3.3806
23 5 48.7
9.196
12
17 55 12.73
34468
27 46 45.6
3.040
13
16 0 46.08
3.3983
23 14 66.8
94n4
13
17 57 45.61
84493
27 48 43.2
1475 :
14
16 3 3.89
3.3001
23 23 67.7
8.964
14
18 0 18.65
845)0
27 60 30.4
1.700 '
15
16 5 22.10
3.3068
23 32 51.4
8.833
15
18 2 61.86
84547
27 62 7.1
1484
16
16 7 40.71
3J136
23 4137.9
8.713
16
18 6 25.22
84573
27 63 33.2
1447
17
16 9 59.73
3.3303
23 50 16.9
0.500
17
18 7 58.73
84506
27 64 48.7
1.170
18
16 12 19.15
3.3370
23 58 48.5
8.465
18
18 10 32.37
84618
27 55 63.6
OJ03 ,
19
16 14 38.97
3.3336
24 7 12.6
8387
19
18 13 6.14
84638
27 66 47.9
0415
20
16 16 59.18
3.3409
24 15 29.0
8.300
20
18 15 40.02
84657
27 67 31.6
04n
21
16 10 19.79
3.3468
24 23 37.7
Oj978
21
18 18 14.02
84675
27 68 4.4
04»
22
16 21 40.80
'i.V^^
24 31 38.5
7.047
22
18 20 48.12
84601
27 68 26.6
0410
23
16 24 2.20
3.3508
24 39 31.5
7.815
23
18 23 22.31
84705
27 68 38.0
0.101
24
16 26 23.99
3.366S
S.24 47 16.5
7.683
24
18 25 56.58
84718
S27 68 38.7
OjOTO
VI.
NOVEMBER, 1855.
167
GREENWICH
MEAN TIME.
"1
THE MOOITS RIGHT ASCENSION AND DECLINATION.
Hoar.
Dlff
forlm.
Dili:
forlm.
Hour.
RifhtAflMMkm.
Dtff.
fbrlm.
DKUnaUoD.
DiC
forlm.
TUEJ
3DAY
13.
THURSDAY 15.
1
h. m. 8.
a.
O 1 N
m
h. m. •.
1.
O 1 v
«
' 0
18 25 56.58
%S1\8
S.27 58 38.7
ojm
0
20 28 13.21
3.4758
S.24 30 61.8
6.378
1 1
18 28 30.92
%Bej90
27 58 28.6
0.358
1
20 30 41.62
3.4713
24 22 24.6
6.583
s
18 31 5.33
3.8740
27 58 7.9
0.488
2
20 33 9.75
3.4865
24 13 48.1
8.885
3
18 33 39.79
2.5748
27 57 36.4
0418
3
20 35 37.60
3.4818
24 5 2.5
8.887
4
18 36 14.31
3.ff7M
27 56 54.0
0.198
4
20 38 5.17
3.4073
23 56 7.8
84B7
5
18 38 48.86
3.5703
27 66 0.8
0.078
6
20 40 32.46
3.4535
23 47 4.2
9.185
6
18 41 23.45
3.f7«7
27 54 56.8
1.159
6
20 42 59.47
3.4476
23 37 61.6
9JK3
7
18 43 58.06
3.«7flB
27 53 41.9
1.840
7
20 45 26.19
3.4437
23 28 30.1
9.480
8
18 46 32.68
%tfni
27 52 16.2
1.590
8
20 47 52.60
3.4»n
23 18 59.9
9.0n
9
18 49 7.31
S.f773
27 50 39.7
1.700
9
20 50 18.72
3.4838
23 9 21.0
9.739
10
18 51 41.94
%rn\
27 48 52.4
1.880
10
20 62 44.65
3.4978
22 59 33.4
9.605
11
18 54 16.55
%nm
27 46 54.2
34)61
11
20 66 10.08
3.4398
22 49 37.3
104)07
13
18 56 51.13
%m9i
27 44 45.2
3.343
12
20 57 35.31
3.4178
22 39 32.7
10.147
13
18 59 25.68
%m»
27 42 25.3
3.433
13
21 0 0.23
3.4138
22 29 19.7
10.967
14
19 2 0.19
3J147
27 39 54.7
3.601
14
21 2 24.86
3.4078
22 18 58.3
10.435
1 15
19 4 34.65
3.0786
27 37 13.2
3.780
16
21 4 49.17
3.4037
22 8 28.7
10.589
16
19 7 9.05
3.ff73B
27 34 21.0
3J66
16
21 7 13.18
3.3975
21 67 60.9
10.807
17
19 9 43.39
3J717
27 31 18.0
8.188
17
21 9 36.88
3.8938
2147 5.1
10.881
18
19 12 17.65
9.0708
27 28 4.3
8.317
18
21 12 0.27
9J873
21 36 11.2
10.968
19
19 14 51.82
9.M8B
27 24 39.9
8.495
19
21 14 23.35
3.3890
2125 9.5
114)94
20
19 17 25.90
3.5873
27 21 4.9
8.078
20
21 16 46.11
3.8768
21 13 69.9
11.338
21
19 19 59.89
3.5655
27 17 19.1
8.851
21
21 19 8.57
3J717
21 2 42.6
11.861
22
19 22 33.77
3.5887
27 13 22.8
44)38
22
21 21 30.71
3.3666
20 51 17.7
11.478
23
19 25 7.53
WED J
3.5«n
JESDil
S27 915.8
lY 14.
4J04
23
21 23 62.65
FR]
9.8613
[DAY
S.20 39 46.2
16.
11.804
0
19 27 41.16
3.5506
S.27 4 68.2
4.860
0
21 26 14.07
3.3563
&20 28 5.3
11.717
1
19 30 14.66
3.5073
27 0 30.1
4356
1
21 28 35.29
3.8510
20 16 18.0
11.849
2
19 32 48.01
%664a
26 65 61.4
4.783
2
21 30 56.19
3.8456
20 4 23.3
11.970
3
19 35 21.22
3.5038
26 51 2.3
4.907
3
21 33 16.79
3.3406
19 62 21.5
134)90
4
19 37 54.28
3.5496
26 46 2.8
54)80
4
21 35 37.08
3.8855
19 40 12.6
13.308
5
19 40 27.17
3.5408
26 40 62.8
5.358
6
21 37 67.06
3.3804
19 27 66.6
13.336
6
19 42 59.90
26 35 32.5
5435
6
21 40 16.74
3.8308
19 16 33.5
19.440
7
19 45 32.45
3.5410
26 30 1.8
5.806
7
21 42 36.11
3.8308
19 3 3.7
13.568
8
19 48 4.82
3.5880
26 24 20.9
5.767
8
21 44 55.18
3.8153
18 60 27.1
13.866
9
19 50 37.01
3.5848
26 18 29.7
5.987
9
21 47 13.95
3.8108
18 37 43.8
13.777
10
19 53 9.00
3.5816
26 12 28.4
6.107
10
21 49 32.42
3.3003
18 24 53.9
13.867
11
19 55 40.80
3.5SB3
26 6 17.0
6.376
11
21 61 60.59
3.3008
18 1167.4
134)95
12
19 58 12.38
3.5347
25 69 66.5
6.443
12
21 64 8.46
3.3954
17 58 54.5
18.109
13
20 0 43.75
3.&310
25 53 24.0
6.608
13
21 56 26.03
3.3905
17 45 45.2
18.307
14
20 3 14.90
3.5173
25 46 42.5
6.778
14
21 68 43.31
3.3886
17 32 29.7
18.310
15
20 5 45.82
S.51S4
25 39 61.1
6.988
15
22 1 0.30
3.3807
17 19 8.0
18.413 1
16
20 8 16.52
3.5096
25 32 49.9
7.103
16
22 3 16.99
3.3756
17 5 40.3
13.513
17
20 10 46.98
3.5007
25 26 38.8
7.365
17
22 5 33.40
3.3710
16 62 6.6
18.610
18
20 13 17.20
3.5016
26 18 18.0
7.437
18
22 7 49.51
3.3689
16 38 27.1
13.707
19
20 15 47.17
3.4974
25 10 47.5
7.668
19
22 10 5.34
3.3616
16 24 41.8
13^)3
20
20 18 16.89
3.4083
25 3 7.4
7.748
20
22 12 20.88
3.3586
16 10 50.8
13.896
21
20 20 46.36
3.4890
24 55 17.6
7.907
21
22 14 36.15
9.3539
15 56 64.2
134)88
22
20 23 15.57
3.4847
24 47 18.4
84)66
22
22 16 61.14
3.3477
15 42 52.2
14400
23
20 25 44.52
3.4808
24 39 9.8
6.393
23
22 19 6.86
3.3433
15 28 44.7
14.180
24
20 28 13.21
3.4756
&24 30 61.8
8.878
24
22 21 20.31
3.3867
S 15 14 31.9
14.307
168
NOVEMBER, 1855.
VII.
1 '' — '-
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right AMenaioiu
Dirr.
fori m.
DediMllon.
Wff.
forlm.
Hoar.
Right A«cei»ioa.
DifT.
for 1 in.
DecIinaUoo.
DlflU
forlm.
SATURDAY 17.
MONDAY
19.
h. m. •.
a.
O 1 M
M
h. m. ••
f.
O 1 «
N
0
22 21 20.31
S.3387
S 15 14 31.9
U.9ff7
0
0 4 56.97
9.1080
& 2 37 36.3
16.607
1
22 23 34.50
3.9349
15 0 13.8
UJUt
1
0 7 3.43
9.1073
220 54.1
16.710
S
22 25 48.42
2.M00
14 45 50.6
14.480
2
0 9 9.85
9.1067
2 4 11.2
16.799
3
22 28 2.09
«.M57
14 31 22.4
14.614
3
0 11 16.23
9.1003
147 27.5
16.739
4
22 30 15.51
2.W16
14 16 49.2
14.506
4
0 13 22.58
9.1067
1 30 43.4
16.740
5
22 32 28.67
2.0173
14 2 11.1
14.075
5
0 15 28.90
9.106^
1 13 58.7
16.747
6
22 34 41.59
3.3139
13 47 28.2
14.764
6
0 17 35.19
9.1048
0 57 13.7
16.763
7
22 36 54.27
2.90W
13 32 40.7
14.839
7
0 19 41.47
9.1045
0 40 28.4
16.768
8
22 39 6.70
3.3063
13 17 48.6
14.908
8
0 21 47.74
9.1044
0 23 42.8
16.700
9
22 41 18.91
3.3015
13 2 51.9
14.989
9
0 23 54.00
9.1043
S. 0 6 57.1
16.761
10
22 43 30.88
9.1977
12 47 50.7
16.066
10
0 26 0.26
9.1049
N. 0 9 48.6
16.709 '
11
22 45 42.63
3.1939
12 32 45.2
16.137
11
0 28 6.51
9.1043
0 26 34.3
16.760 !
12
22 47 54.15
3.1909
12 17 35.5
16.197
12
0 30 12.77
9.1044
0 43 19.8
16.757 1
13
22 50 5.45
3.1805
12 2 21.7
16.966
13
0 32 19.04
9.1046
1 0 5.1
16.763 \
14
22 52 16.53
3.1899
1147 3.7
16.439
14
0 34 25.32
9.1048
1 16 50.0
16.746
15
22 54 27.40
3.1798
113141.8
16.398
15
0 36 31.62
9.1069
1 33 34.4
16.737
16
22 56 38.06
3.1758
11 16 16.1
16.463
16
0 38 37.95
9.1067
1 50 18.4
16.797
17
22 58 48.51
3.1735
11 0 46.5
164^6
17
0 40 44.32
9.1083
2 7 1.7
16.715
18
23 0 58.76
3.1693
10 45 13.3
16.566
18
0 42 50.72
9.1010
2 23 44.3
I6.7VH
19
23 3 8.82
3.1000
10 29 36.4
16.646
19
0 44 57.17
9.1078
2 40 26.1
16.688
90
23 5 18.69
3.1099
1013 56.1
16.708
20
0 47 3.66
9.1087
2 57 7.1
16.673
SI
23 7 28.36
3.1598
9 58 12.3
16.768
21
0 49 10.21
9.1006
3 13 47.1
16416
22
23 9 37.86
3.1508
9 42 25.2
16319
22
0 51 16.81
9.1106
3 30 25.9
16438
23
23 11 47.18
3.1689
S. 9 26 34.9
16.866
23
0 53 23.47
9.iin
N. 3 47 3.5
16418
sur
n)AY
18.
'
TUE
SDAY
20.
0
23 13 56.33
9.1611
s. 9 10 41.4
16J16
0
0 55 30.21
9.U98
N. 4 3 39.9' i«^
1
23 16 5.31
9.1488
8 54 45.0
16.966
1
0 57 37.01
9.1139
4 20 14.9 16.WI
2
23 18 14.13
3.1457
8 38 45.6
16.013
2
0 59 43.87
9.1169
4 36 48.5
16.646
3
23 20 22.79
9.iai
8 22 43.4
16.000
3
1 1 50.82
9.1166
4 53 20.5
16.619
4
23 22 31.30
9.1405
8 6 38.4
16.106
4
1 3 57.85
9.1180
5 9 50.8 16.480
6
23 24 39.65
9.1381
7 50 30.8
16.149
5
1 6 4.98
9.1196
5 26 19.4! 16.400
6
23 26 47.87
9.1356
7 34 20.6
16.199
6
1 8 12.20
9.1919
5 42 46.2
16.498
7
23 28 55.95
9.1335
7 18 7.8
16.933
7
1 10 19.52
9.1990
5 59 11.0
I6J86
8
23 31 3.89
9.1313
7 152.6
16.973
8
1 12 26.95
9.1948
6 15 33.9
16.363
9
23 33 11.71
9.1993
6 45 35.1
16411
9
1 14 34.49
9.1906
6 3154.6
16.097
10
23 35 19.40
9.1973
6 29 15.3
16447
10
1 16 42.14
9.1981
6 48 13.1
16.989
11
23 37 26.98
9.1964
6 12 53.4
16469
11
1 18 49.90
9.1308
7 4 29.3
16.960
12
23 39 34.44
9.1936
5 56 29.4
16.416
12
1 20 57.78
9.1396
7 20 43.1
16J09
13
23 41 41.79
9.1917
5 40 3.5
16.447
13
1 23 5.80
9.1347
7 36 54.4
16.167
14
23 43 49.04
9.1900
5 23 35.8
16.477
14
1 25 13.95
9.1368
7 53 3.0
16.191,
15
23 45 56.19
9.1183
5 7 6.3
16.606
15
1 27 22.23
9.1390
8 9 9.0
16477 1
16
23 48 3.24
9.1197
4 50 35.2
16.5U
16
1 29 30.64
9.1414
8 25 12.2
164991
17
23 50 10.20
9.1163
4 34 2.5
16.666
17
1 31 39.20
9.1438
8 41 12.5
U480
18
23 52 17.08
9.1140
4 17 28.3
I6.5S9
18
1 33 47.90
9.1409
8 57 9.9
16480
19
23 54 23.89
9.1198
4 0 52.6
16.606
19
1 35 56.75
9.1487
9 13 4.2
turn
20
23 56 30.63
9.1117
3 44 15.7
16.697
20
1 38 5.76
9.1613
9 28 55.4
1649ft
21
23 58 37.30
9.1107
3 27 37.5
16.647
21
1 40 14.92
9.1641
9 44 43.3
16.770
22
0 0 43.91
9.MV7
3 10 58.1
16.066
22
1 42 24.25
9.1669
10 0 27.9
16.713
23
0 2 50.47
9.1088
2 54 17.7
16.689
23
1 44 33.75
9.1508
10 16 9.1
16466
24
0 4 56.97
9.1080
8. 2 37 36.3
16.691
24
1 46 43.42
9.1097
N 10 31 46.7
16400
Till.
NOVEMBER, 1855.
169
GREENWICH MEAN TIME.
THE MOOlSrS EIGHT ASCENSION AM) DEOLrNATlON*
Hour
Eifbi AflOeEuJfifi.
11] If
iat 1 m
PoeUnAUDfi.
[>iff.
for I m
Hour.
Rl^hl A«c«uifHi.
ht 1 ni.
0edliuulDn.
BUT
for 1 nil.
WEDI^
FESD.^
lY 21.
FRIDAY
23.
h. m. 1,
B,
O J Jf
U
h. Bi. i.
■
D i H
u
0
1 4n 43.43
!L1«3T
N10 31 46.7
10409
0
3 34 43.01
3.11(10
N 21 22 15.8
30,584
' *1
1 48 53,37
a. 1068
10 47 20,7
]«^l»a
I
3 37 4.79
2^i9&
21 33 8.0
to.aoa
S
1 51 3.31
3.[€»>
11 2 50 9
13^73
2
3 39 25.91
HJwai
2143 52.2
I0.IT71
%
1 53 L^.54
^Mm
11 IB 17.4
, )^-ixn
3
3 41 47.26
3-1*77
21 54 28.5
l(l.D77
4
1 ^5 23.95
3,17*3
11 33 30.9; ]h^\
4
3 44 8.84
5<M19
22 4 56.6
I0.40a
5
I 57 3i.56
9.1 IB,'!
U AS 58 1
i*>a7a
5
3 46 30.60
%Mfiik
33 15 16.7
]o,3a»
6
1 59 45.37
9.1(119
12 4 13.8
IA.QD4
6
3 48 52.71
^jmn
23 25 38.5
10437
7
2 I 5fi.33
^.isa^
12 10 23.0
is-iaat
7
3 51 14,98
3.3730
22 35 31.U
9jm
B
3 4 7.6(1
%}sei
12 34 20.0^ 16^1
8
3 53 37.47
2-!!7ffT
23 45 27*0
9.»1»
S
2 0 19.03
1.1W1
13 40 30.5
14P^
9
3 56 0.18
3.3804
22 55 13.7
s.Tin
10
3 8 30,07
^i9A5
13 4 27.6
I4!>13 1
10
3 58 23.11
?.3aio
23 4 51.9
»4«A
11
2 10 42,50
5.iaw
13 10 20,1
t4^?aa
11
4 0 46.20
24flTfl
23 14 21.5
e,42i
12
3 12 54,55
%xm>
13 34 8.0
i4-'im
12
4 3 9.63
3.31113
23 23 42.5
9.^1
13
2 15 fj.8l
^.'jmi
13 4H 51.1
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13
4 5 33,31
3.aiH7
23 32 54,8
0.1J3
14
2 17 10.20
B,^0ff7
14 3 29.3
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14
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33 41 58,4
B.9ST
15
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ILaiM
14 18 2.0
^.,113
15
4 10 30,97
a-wis
23 50 53.3
8JM0
10
2 21 44.99
suano
14 32 30.8
U-437
IB
4 12 45.15
3-4P45
23 59 39.1
^mi
17
3 23 58.03
%^^
14 46 53.0
14 -.140
17
4 15 9.,52
3«wrn
24 8 16.1
a^U9
19
3 2fi 11.38
3.^344
15 1 11.8
M-aaa
18
4 17 34.07
11-4107
24 16 44.0
i.301
19
2 36 24.96
a.sBffi
15 15 24.4
I4'lfift
19
4 19 58.81
9,4137
24 25 3.0
S.3»
20
2 30 38.76
SL3sao
15 29 31.5
u*(nfl
20
4 23 23.72
34m
24 33 13,8
B.vm
31
2 32 53.79
a,®Mt
15 43 33.2
ia.BOT
21
4 24 48.81
3.41M|
24 41 13,5
7*BM
i^i
3 35 7.05
3.3397
15 57 29.3
i3*aaT
32
4 27 14.07
±4333
24 49 5.0
i.-m
^
3 37 21.55
THU
RSDA
N16 11 19,7l 13.7PI
Y 22,
23
4 29 39.49
SATI
2.4351
JRDA
N 34 50 47.2
Y 24.
i,m
0
S 39 36.28
3.9^0
\16 35 4.3
la.ftM
0
4 33 5.08
3,4577
N25 4 20.2
7.m
1
3 41 5L20
a-MiT
16 38 43.1
13J»&
1
4 34 30.82
3.4303
25 1143.9
7.3 1«
2
2 44 ^AS
Q.3dS7
16 52 15.9
W.4a5
2
4 30 56.71
^laafi
25 18 58.3
7.iM
3
2 46 21.94
2,3IBe
17 5 42.7
13.3S4
1 3
4 39 22.75
24351
25 26 3.1
7.WKI
4
2 48 37.05
%3fiS0
17 19 3.4
11.001
4
4 41 48.92
1.4373
25 32 58.5
tf.S48
6
2 50 53.60
3,31180
17 32 17.9
ia.iee
5
4 4t 15.23
3.4afl5
25 39 44.4
e.offi
e
2 53 3,80
3.57111
17 45 26.0
13.5^J
6
4 46 41.06
3.4416
25 46 20.8
fl>537
7
2 55 26.35
3.7763
17 58 27,8
10.97.1
7
4 49 8.22
34 m
35 52 47.6
&.3S7
B
2 57 42.94
g.3S03
18 1123.1
13.MS
8
4 51 34.89
3*44W
25 59 4.8
B.^
9
3 59 59.89
1U1MW
18 24 1L9
13,7fi6
9
4 5^4 1.67
3.4171
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^040
10
3 2 17.00
a.?»T7
18 30 54.0
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4 56 28.55
a.NK"
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5.883
11
3 4 34.54
3.«»'»
18 49 29.3
i^sat
II
4 58 55.53
^A!m
26 16 58.4
«.?3I
IS
3 6 52.24
3.2011
19 1 57.8
ia4ja
12
5 1 23.61
J4fii0
26 22 36.8
fi.Mfl
13
3 0 10,19
3.3013
19 14 19.4
13.30-2
13
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2.4.^534
26 28 5.5
ym
14
3 1 1 29.39
-J-aOAS
10 20 34.0
13.;bi
14
5 6 17.01
2.4*17
26 33 24.4
5.334
15
3 13 46.81
^..KlflO
10 38 41.4
ia-o«5
15
5 8 4 1.33
3.4S.VI
36 38 33.5
a.(i7fl
16 1
3 16 5,54
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19 50 4L7
11.944
16
5 11 11.71
3.4fifie
20 43 33.8
4,eoa
17
3 le 24.48
9.3 ITS
20 3 34.7
n-e33
17
5 13 39.14
2.4477
30 4N 22.3
4.742
Id
3 20 43,07
2.3318
30 14 20.3
11*8P8
18
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2.4,V^
2<i53 1.9
J.57S
19
3 23 3.10
2.a'24f)
20 25 58.5
1 1*573
19
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3.4*93
26 57 31,7
4.413 1
20
3 25 22.78
5.3300
20 37 29.3
n-44i*
20
5 31 1.72
2.4*fl7
27 1.71. 6
4,'J4B
21
3 27 43.70
'i.SS41
20 48 52.4
11.,^^
21
5 23 29,31
2.1000
27 0 1.0
4.01^
32
3 30 2,86
2.;i38>
21 0 7.9
11.IOT
22
5 35 56,92
QAtm
27 10 1.6
a.iijs
23
3 32 23.27
2,3431
21 11 15.8
IL.Ofl^l
23
5 28 24.55
2.4e<Vl
27 13 51,8
a,7M
34
3 34 43.91
*i.3im
N2l22 15.t^
lO.MM
34
5 30 52.18
3.400*
N 37 17 33.0
a.wT
22
170
NOVEMBER, 1855.
IX.
GREENWICH MEAN TIME.
n
THE MOON'S RIGHT ASCENSION AND DECLINATION. ||
Hour.
Diff.
forlm.
DkUimiIoil
Did:
forlm.
Bbur.
BiffatAiMiwIoiL
Diff.
fbrlm.
Dili:
fcrlm.
SU^
roAY
25.
TUESDAY 27.
h. m. c
a.
O 1 u
a
h. in. ■.
■.
O f 0
n
0
6 30 63.18
S.4606
N 37 17 33.0
ojerr
0
7 86 46.48
94970
N37 3 47.4
344S
1
6 33 19.81
9.4604
37 31 3.3
0.439
1
7 89 6.94
94918
36 59 46.3
4497
3
6 36 47.44
9.4603
87 34 83.7
3.357
3
7 31 35.09
94106
36 55 36.8
4490
3
6 38 15.06
9.4600
87 37 33.1
tjm
3
7 33 43.93
94119
36 51 19.1
4408
4
6 40 43.64
9.4M6
87 30 33.6
9.990
4
7 36 3.43
94080
86 46 53.3
4400
5
6 43 10.30
94400
87 33 84.1
9.760
6
7 38 80.63
94000
36 43 19.1
4496
6
6 46 37.78
9.4fieS
37 36 4.7
9404
6
7 40 38.60
94901
36 37 36.9
4.T70
7
6 48 5.30
9.4476
37 38 35.4
9.498
7
7 43 66.06
94897
86 33 46.8
4409
8
5 60 33.63
9.4168
87 40 56.3
9409
8
7 45 13.36
94819
36 37 48.7
6404
9
6 63 0.01
9.4168
87 43 7.0
9497
9
7 47 30.15
94787
36 33 43.7
6.166
10
6 65 37.33
9.4M6
37 45 7.9
1439
10
7 49 46.70
94731
86 17 88.9
6496
11
5 67 54.65
9.4609
87 46 69.0
1.767
11
7 63 3.93
94676
36 13 7.4
6493
13
6 0 31.70
9.4A17
37 48 40.1
1409
18
7 64 18.80
94018
86 6 38.3
6460
13
6 3 48.76
9.4601
87 60 11.4
1.430
13
7 66 34.34
94060
86 1 1.3
6477
14
6 5 15.73
9.4481
87 51 33.8
14T5
14
7 68 49.63
94801
85 66 16.9
6409
15
6 7 43.67
9.4460
37 53 44.4
1.119
16
8 1 4.37
94443
85 49 36.1
6490
16
6 10 9.31
9.4446
37 63 46.3
0449
16
8 3 18.86
94360
85 43 86.8
6400
17
6 13 35.94
9.4497
37 64 38.3
0.780
17
8 5 33.01
94398
35 37 19.1
6.179
18
6 15 3.44
9.4406
87 55 80.5
ojm
18
8 7 46.80
94970
85 31 5.1
6.993
19
6 17 38.81
9.468S
37 56 63.0
0469
19
8 10 0.34
94911
86 34 44.0
6413
30
6 19 55.04
9.4188
87 56 16.9
0400
80
8 13 13.33
94109
85 18 16.6
6439
81
6 33 31.13
9.4001
37 66 80.1
0.130
81
8 14 86.05
94093
85 11 40.3
6400
33
6 84 47.05
9.4108
37 66 38.6
0499
88
8 16 38.43
94039
35 4 57.7
6.7f7
33
6 37 13.83
MO]
9.4981
^DAY
N 37 66 86.6
26.
0.189
83
8 18 60.43
WEDJ
9.1079
lESDJ
N.84 68 8.3
LY 2a
6481
0
6 80 38.43
9.4980
N 37 66 10.9
0441
0
8 81 3.08
9.1911
N346111.9
6408
1
6 33 3.86
9.4930
37 55 45.7
0400
1
8 33 13.37
9.1890
34 44 8.7
7.119
3
6 34 39.10
9.4109
37 65 11.0
0488
8
8 86 34.39
9.1789
34 36 68.7
7494
3
6 36 54.16
9.4100
37 54 36.8
0410
3
8 37 34.84
9.1798
34 39 43.0
7436
4
6 39 19.03
9.4197
37 53 33.3
0479
4
8 89 45.03
9.1667
34 33 18.6
7446
5
6 41 43.69
9.4000
37 53 30.3
1.198
6
8 31 64.85
9.1600
34 14 48.7
7464
6
6 44 8.15
9.4066
37 51 17.8
1484
6
8 34 4.30
9.1646
34 713.3
7469
7
6 46 33.40
9.4091
87 49 56.1
1440
7
8 36 13.39
9.1484
33 69 89.4
7.760
8
6 48 56.43
9.0007
87 48 36.8
1404
8
8 38 83.11
9.1493
33 6140.1
7476
9
6 51 80.84
9.SOI0
87 46 45.0
1.747
9
8 40 30.47
9.1063
83 43 44.6
7479
10
6 53 43.83
9.0010
37 44 66.6
1400
10
8 48 38.47
9.1909
83 35 43.7
8400
11
6 66 7.16
94870
37 43 57.1
9409
11
8 44 46.10
9.1349
83 87 34.8
8.164
13
6 58 30.35
9.0800
87 40 49.5
9.900
18
8 46 63.37
9.1181
83 19 80.7
8486
13
7 0 63.09
9J787
37 38 33.8
9403
13
8 49 0.38
9.1190
33 11 0.6
8486
14
7 3 16.68
9.0743
37 36 7.8
9409
14
8 61 6.83
9.1061
33 8 34.6
8484
16
7 6 38.01
9.0000
37 33 33.6
9480
16
8 53 13.01
9.1009
33 64 3.6
6489
16
7 8 0.07
9.0600
87 30 49.1
9.790
16
8 66 18.84
9.0913
33 45 34.8
8479
17
7 10 81.87
9.0010
87 87 66.8
94a
17
8 57 34.31
94884
83 36 41.3
8.776
18
7 13 43.39
9.0064
87 84 65.7
34n
18
8 69 89.43
94636
88 37 63.0
8400
19
7 15 4.63
9.0017
87 31 46.8
3.9K
19
9 1 34.19
94768
83 18 67.1
8463
30
7 17 36.69
9.0460
37 18 87.3
3-389
80
9 3 38.59
umn
88 9 66.6
9404
81
7 19 46.36
93491
37 15 0.1
3.090
81
9 6 43.66
94649
88 0 60.6
9.MB
38
7 83 6.63
9J079
87 1134.3
3.687
33
9 7 46.36
94899
816139.1
9.9n
33
7 84 36.71
9.0091
37 7 40.1
3408
33
9 9 49.78
94036
81 43 88.3
9497
34
7 86 46.48
94970
N37 3 47.4
0448
34
9 11 63.74
94478
N8133 0.0
9416
X.
NOVEMBER, 1855.
ITl
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
0
1
2
3
4
5
0
7
8
9
10
11
12
13
14
15
16
17
18
19
30
21
22
23
24
Right
Dur.
for 1 m
DbcUobUoo.
THURSDAY 29.
9 11
9 13
9 15
9 17
9 20
922
924
926
928
930
932
934
936
9 38
9 40
9 41
9 43
9 45
9 47
9 49
9 51
9 53
9 55
9 57
9 59
c
«.
52.74
2.0478
55.43
3U)499
57.78
3.0805
59.80
3.0810
1.49
3U)3S4
2.84
3.0108
3.87
34)148
4.56
3.0088
4.93
3.0003
4.97
1.9079
4.69
1.90-36
4.08
1J771
3.15
1.9617
1.90
1.9768
0.32
ijrm
58.43
1.0695
56.21
1.9006
53.68
1.9569
50.84
IJSMl
47.69
1.0461
44.23
ijmi
40.48
1J853
36.44
1.9304
32.11
1.9366
27.50
1.9310
O I H
N2133 0.0
21 23 32.6
21 13 59.9
21 4 22.1
20 54 39.2
20 44 41 3
20 34 58.4
20 25 0.6
20 14 58.0
20 4 50.6
19 54 38.4
19 44 21.6
19 34 0.2
19 23 34.2
19 13 3.7
19 2 28.7
18 61 49.3
18 41 5.6
18 30 17.7
18 19 25.5
18 8 29.2
17 57 28.7
17 46 24.2
17 35 15.7
N17 24 3.3
IMff.
forlm.
Hoar.
«
9.416
0
9.603
1
9.688
2
9.078
3
9.767
4
9.840
5
9.933
6
10.003
7
10.068
8
10.103
9
10.340
10
10.318
11
10J05
12
10.473
13
10.647
14
10.630
15
10.608
16
10.766
17
10.886
18
10.904
19
10.978
20
114)43
21
11.100
22
11.176
23
11.340
24
Right
Diir.
fori m.
DecUnAtioo.
DHf
forlm.
FRIDAY 30.
b. IB.
9 59
10
10
10
10
10
10 10
10 12
10 14
10 16
10 18
10 20
10 22
10 24
10 25
10 27
10 29
10 31
10 33
10 35
10 37
10 38
10 40
10 42
10 44
a.
fl.
27.50
1.0310
22.63
1.9106
17.49
1.9133
12.09
1.9080
6.44
1.9088
0.55
1.8067
54.40
1.8066
48.01
1.8016
41.38
1.8874
34.51
1.8833
27.39
1.8703
20.03
1^68
12.43
1.9713
4.59
1.8974
56.51
1.8636
48.20
1.8606
39.66
1.8667
30.87
1.8619
21.86
1.8488
12.65
1.6447
3.23
1.8413
53.61
1.8360
43.80
1.8348
33.80
1.6317
23.61
1.8987
N.17 24 3.3
17 12 46.9
17 126.7
16 50 2.7
16 38 35.0
16 27 3.5
16 15 28.4
16 3 49.6
15 52 7.3
15 40 21.5
15 28 32.3
15 16 39.6
15 4 43.6
14 52 44.3
14 40 41.8
14 28 36.1
14 16 27.2
14 4 15.2
13 52 0.2
13 39 42.2
13 27 21.2
13 14 57.2
13 2 30.4
12 50 0.8
N.12 37 28.3
11.340
11.805
11.360
11.433
11.494
11.666
11.616
11.676
11.736
11.7S8
11.860
114)06
11.961
134)16
134)08
13.131
13.173
13.334
13.976
13.836
13J74
13.433
13.471
13.618
13.604
PHASES OF THE MOON.
Daj. h. m.
C Last Quarter, 1 5 17.8
# New Moon, 9 7 32.0
3> First Qaarter, 16 1115.3
O Full Moon, 23 7 61.7
D»r h.
C Apogee, 3 10.0
<r Perigee, 19 0.0
172
NOVEMBER, 1855.
XI.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
Sur'tNuM
and
PMitiOO.
Noon.
P L.
of
Dlff
mh.
P.L.
of
Dur.
VPi.
P.L.
of
Dtff
JX>.
P.L.
of
mtr.
1
Aldebaran
Saturn
Pollux
Man
Venua
Sun
W.
w.
w.
E.
E.
E.
59 12 35
36 56 15
14 50 47
31 17 54
55 42 29
92 25 24
8(n«
8056
8094
8344
sifie
8800
O 1 u
60 41 14
38 25 18
16 20 18
29 52 37
54 15 30
91 2 56
8089
8060
8088
8968
8168
8800
O 1 II
62 9 46
39 54 16
17 49 44
28 27 31
52 48 43
89 40 38
8067
8065
8048
8969
8170
8406
o 1 a
63 38 11
41 23 9
19 19 4
27 2 35
5122 9
88 18 28
80S8
8068
8017
8979
3187
6418
2
Aldebaran W.
Saturn W.
Pollux W.
Venua E.
Sun E.
70 58 58
48 46 33
26 44 22
44 11 38
8129 25
8100
8064
8067
8394
8446
72 26 57
50 15 2
28 13 12
42 45 57
80 8 1
8119
8085
8070
8931
8460
73 54 52
51 43 30
29 41 58
41 20 24
78 46 41
8115
8087
8078
8936
8451
75 22 43
53 11 56
31 10 40
39 54 58
77 25 22
8110
8088
8076
8313
8466
3
Aldebaran W.
Saturn W.
Pollux W.
Venus E.
Sun E.
82 41 0
60 33 46
38 33 39
32 49 13
70 39 21
819B
8000
8061
8965
8469
84 836
62 2 8
40 2 12
31 24 20
69 18 14
8197
8080
8081
8960
8461
85 36 13
63 30 31
41 30 45
29 59 32
67 67 6
8195
8067
8080
8371
8461
87 3 52
64 58 56
42 59 19
28 34 47
66 35 58
8131
8067 1
aoTOj
8976
8450 1
4
Saturn
Pollux
Regulos
Sun
W.
W.
W.
E.
72 21 34
50 22 38
14 22 56
59 49 49
8071
8067
8106
1447
73 50 19
515128
15 49 10
58 28 26
8067
8069
8102
8444
75 19 9
53 20 24
17 15 41
57 0 59
8069
8068
8167
8440
76 48 5
54 49 25
18 42 30
55 45 28
8066
8054
8166
8486
5
Saturn
Pollux
Regulu0
Sun
W.
W.
W.
E.
84 14 5
62 15 54
26 0 35
48 56 22
8088
3098
8060
8407
85 43 37
63 45 32
27 28 58
47 34 13
8035
8091
son
8400
87 13 19
65 15 19
28 57 36
46 1156
8018
8014
8065
8808
88 43 10
66 45 14
30 26 29
44 49 31
8011
8006
8054
8386
6
Saturn
Pollux
Re^lua
Sun
W.
W.
W.
E.
96 14 37
74 17 0
37 54 18
37 55 8
9074
9080
8001
8349
97 45 22
75 47 51
39 24 30
36 31 45
9065
9961
9900
8883
99 16 19
77 18 53
40 54 55
35 8 12
3956
9059
9081
8895
100 47 27
78 50 6
42 25 32
33 44 29
3046
3048
3080
8816
12
Sun W.
Jupiter E.
Foroalhaut E.
a Pegasi E.
32 49 17
61 31 2
69 36 44
90 38 48
9860
9640
9710
9867
34 22 40
59 50 57
68 0 30
89 5 47
9849
9549
9716
9850
35 56 13
58 10 42
66 24 12
87 32 36
9664
9036
3715
3853
37 29 57
56 30 17
64 47 52
85 59 17
3696
3598 !
3718
3848
13
Sun W.
Jupiter E.
Foroalhaut E.
a Pegasi E.
45 21 3
48 6 2
56 46 20
78 11 11
9780
3100
9T87
9880
46 55 45
46 24 47
55 10 16
76 37 22
3789
9104
3735
3809
48 30 37
44 43 25
53 34 22
75 3 32
»n4
3467
3744
3899
50 5 39
43 1 54
51 58 40
73 29 42
3767 1
3481
9758
9830
14
Sun W.
Jupiter E.
Foroalhaut E.
a Pegasi E.
58 256
34 32 48
44 3 32
65 41 6
9785
3163
9814
9847
59 38 49
32 50 43
42 29 22
64 7 39
3790
3461
3899
3855
61 14 50
31 8 35
40 55 32
62 34 22
3733
3450
3847
3864
62 50 59
29 26 24
39 22 5
61 1 17
3717
3458
3674 J
15
Sun
a Pegasi
a Arietis
w.
E.
E.
70 53 40
53 20 2
93 6 30
9680
3008
34^
72 30 35
51 48 56
91 23 31
3684
9081
3410
74 7 37
50 18 19
89 40 24
3678
800O
3415
75 44 47
48 48 17
87 57 10
3673
mm
3110
XII.
NOVEMBER, 1855.
173
'
GREENWICH MEAN
TIME,
LUNAR DISTANCES.
SlAT'i NoCllA
RL
p. L
P.L.
RL
O ^
Bfli]
Midnight.
or
XVh,
of
XVIIP',
of
XXP*.
of
1=
PtoaiLliMi
Ditt
mtr.
DffT.
Din
O i N
O « II
D ( #
0 i 1).
1
AldebartiR
W.
05 6 29
aooT
66 34 43
SWl
68 9 51
^\0i
69 30 56
3109
SaturQ
W.
42 51 58
mm
44 20 42
rnii
45 49 23
3075
47 18 0
30&]
Pollux
w.
20 49 18
w&i
22 17 27
aOBi
23 46 30
3000
25 15 28
3064
Mara
E>
25 37 51
31^
24 13 18
MOl
29 48 SO
a^m)
91 24 43
3SD9
Venui
E.
40 55 44
DtE)^
4H 29 20
3003
47 3 23
»J10
45 37 26
3310
SUH
E.
m 56 26
uvs
85 34 30
3433
M 12 40
343L
82 50 58
3438
9
Alde-baran W.
76 50 3fl
ajw
7B IS 12
MTt
79 45 49
31^
81 13 35
SLia
Saturn
W.
54 40 '20
mm
56 8 42
SOOO
57 37 4
SDOL
59 5 25
JQ91
Pollux
W-
32 3'J 19
ntna
34 7 50
307S
35 3rj 32
3080
37 5 n
W»l
Veuus
E,
36 2U 38
3347
37 4 24
^3M
35 39 15
^2hb
34 14 n
33(10
Sum
E.
76 4 5
34&a
74 42 51
MSn
73 21 30
am
72 0 29
3401
3
Aldebaraji W.
88 31 32
3133
eO 69 15
ailR
91 27 3
311A
02 54 54
3113
Sat lira
W.
66 27 22
XiS^
67 55 50
2(m
'^ 24 21
3060
70 52 55
3017a
Fotlux
W.
44 27 51
3ir7U
45 56 31
Wtii
47 25 10
aorra
48 53 52
sma
VenoB
E.
27 10 8
S*J}
25 45 34
3^10
94 21 6
33iO
29 56 42
SS94
Sto
E.
G5 14 48
U^
63 53 37
^M
62 32 24
a^&j
61 11 08
34£1
4
Salum
W.
78 17 e
WW
79 46 12
30M
81 15 93
3046
89 44 40
3099
PolEux
W.
56 18 31
B&Jtf
57 47 43
aoij
59 17 i
SCMO
60 4G 24
aO!M
Regfulua
W.
20 9 35
3(19
21 36 57
313-r
23 4 34
31U
24 32 27
3L01
Bvii
E.
54 23 52
:u3J
53 2 10
34^
51 40 91
aii»|
50 18 25
Ult
5
Saturn
W.
90 13 ^
WVI
91 43 17
'1997
93 13 34
^9S9
94 44 1
mfii
Pollux
W.
m 15 17
SIWI
09 45 29
5»3
71 15 50
2997
72 46 20
imt
Regius
w.
31 55 35
3wa
33 24 56
3031
34 54 30
SOOT
36 24 18
daia
Sujf
E.
43 26 57
a»T7
42 4 14
3309
40 41 29
3360
39 18 20
3^1
a
Saturn
w.
109 18 47
39S9
103 50 17
tote
105 29 0
ms
106 53 56
3909
Pollux
w.
80 21 30
fflJ4
81 53 6
2M4
83 21 55
•^n
64 56 57
!»03
Reg^ulus
w.
43 56 23
fiSJaH
45 27 29
3we
46 58 50
■m*
48 30 26
3!»33
Suji
E.
32 20 35
33(Kt
30 56 30
35ft4
29 32 13
3&.5
28 7 44
3579
13
Sun
W.
39 3 51
2flie
40 37 55
3ft|l
42 12 8
2S01
43 46 31
ST9T
Jupii^r
E,
M 49 43
^VW
53 9 1
IJfllfi
51 28 10
31^10
49 47 10
'J504
ForaaihaiJt K.
63 i I 30
^la
01 35 7
0714
59 58 46
m&
58 22 30
irn
a Pegasi
E.
64 25 51
afti5
82 62 18
iteKt
81 18 40
asas
79 44 57
WM
13
Sun
W.
51 40 50
2TBt
53 16 9
^15
54 51 36
3148
56 97 12
ar^a ''
Jupiter
E,
41 20 17
347fi
39 38 33
347A
37 50 44
^70
36 14 48
9*S7
Foroalhaut E.
50 23 10
3:aa
48 47 53
•rm
47 12 50
TTfla
45 38 2
7m
a Pegaai
E.
71 55 52
2331
70 22 5
QSW
68 48 20
aws:
67 14 40
394a
li
SD!*
W.
64 27 16
2713
66 3 40
Ttm
67 40 12
2700
69 16 52
3894
Jupiter
F<7[vialhau
E.
27 44 1 1
a45i&
26 1 55
546ti
24 19 40
omy
92 37 39
3499
t E.
37 49 5
3801
36 16 35
.^III
34 44 36
im'i
33 13 17
OSHW
o Pegaai
E,
5& 28 25
3817
57 55 50
'm\
56 23 32
mn
54 51 35
t)^
IS
Sun
W.
77 22 4
a«m
78 59 2e
«ea
80 36 58
ss^
m 14 35
^aca
a Peirasi
E.
47 le 53
»nft
45 50 13
3116
44 22 22
3163
42 55 27
D314
a Arietia
E,
1 86 13 49
iios
84 30 21
Mil
— -
82 46 47
33M
81 3 7
3399
f
174
NOVEMBER, 18&5.
XIII.
GREENWICH MEAN
TIME.
LUNAB DISTANCEa
1
Star's Name
P. L.
P. L.
P. L.
P. L.
^1
and
Noon.
of
nib.
of
VPi.
of
IXh.
of
16
PoeiUoo.
Diff
Diff
9649
Dtrr.
Diff
SUH W.
O 1 H
83 59 19
9647
O 1 M
85 30 10
O 1 n
87 8 8
9088
O » 11
88 46 19
9684
a Pegasi E.
41 99 35
S37ft
40 4 54
33a
38 41 32
8490
37 19 38
8806
a Arietis E.
79 19 91
3880
77 35 30
9884
75 51 33
9881
74 7 31
9878
Aldebaran E.
109 37 43
3874
107 53 31
9860
106 9 12
9864
104 94 45
9840
17
Sun W.
9658 0
3619
98 36 39
9008
100 15 23
9006
101 64 11
9601
a Arietis E.
65 26 26
9897
63 42 4
9806
61 57 40
9864
60 13 14
9866
Aldebmn E.
95 40 53
3387
93 55 48
9838
92 10 37
9890
90 96 90
9896
Saturn E.
117 5 33
9997
115 19 29
9996
113 33 19
2388
111 47 9
9384
18
Sun W.
110 9 23
9686
111 48 37
9684
113 27 63
9683
115 7 13
9680
Jupiter W.
a Arietis E.
91 44 43
9868
23 29 25
9346
25 14 17
9889
96 59 19
9888
51 31 16
9871
49 46 59
9874
48 2 47
9878
46 18 41
3364
Aldebaran E.
81 37 52
9318
79 52 12
9811
78 6 29
9800
76 90 43
9300 J
Saturn E.
109 54 15
9968
101 7 28
9966
99 20 37
9969
97 33 41
nn 1
19
Sun W.
193 94 98
9874
195 3 59
9978
126 43 31
9678
198 93 3
9674 ,
Jupiter W.
35 46 49
9808
37 39 30
3806
39 18 21
9804
41 4 15
9809 {
Fomalhaut W.
39 59 50
9034
34 31 96
9868
36 4 32
9001
37 38 58
9766
a Arietis E.
37 40 54
9488
35 58 7
9448
34 15 39
9666
39 33 36
9470
Aldebaran E.
67 31 38
9807
65 45 48
9807
63 59 58
9800
69 14 9
9818
Saturn E.
88 38 24
99A9
86 51 14
9969
85 4 4
9961
83 16 63
9961
90
Jupiter W.
49 54 0
3804
51 39 54
9904
63 26 47
9W6
65 11 39
9807
Fomalhaut W.
45 43 11
9617
47 91 43
9600
49 0 39
9689
60 39 69
9866
Aldebaran E.
53 95 54
9896
51 40 31
9881
49 55 16
48 10 13
9861
Saturn E.
74 91 13
9900
72 34 14
9901
70 47 17
9909
69 0 99
9966 !
PoUux E.
97 9 15
99M
95 15 10
9960
93 28 10
9909
91 41 13
(
9964
91
Jupiter W.
63 59 55
9894
65 45 19
9S98
67 30 37
9888
69 16 48
9880
Fomalhaut W.
59 1 18
9697
60 41 53
9697
62 29 98
9097
64 3 4
9617
a Pejfasi W.
41 94 58
8160
42 51 44
8114
44 19 37
8066
45 48 99
8096
Aldebaran E.
39 99 22
9408
37 45 59
9119
36 953
9684
3490 7
9488
Saturn E.
60 7 16
9987
58 20 58
9904
66 34 50
9800
64 48 60
9807
PoUux E.
82 47 40
9983
81 1 14
9987
79 14 56
9901
77 98 43
9907
99
Jupiter W.
77 59 28
9878
79 43 41
9881
8197 43
9880
83 11 33
9886
Fomalhaut W.
79 25 54
9680
74 6 25
9688
76 46 52
9687
77 97 14
9644
a Pegasi W.
53 22 48
9898
54 55 9
9889
66 27 50
9868
68 0 61
9066
Saturn E.
46 1 35
9849
44 16 47
9800
42 39 16
9ri
40 47 69
98Si
Pollux E.
68 40 0
9888
66 54 48
9830
65 046
9848
63 94 66
9860
Regulus £.
105 11 40
9361
103 26 55
9866
101 49 16
9861
99 67 46
9868
93
Jupiter W.
91 47 31
9148
93 29 5B
9468
95 19 10
9C70
9664 6
9481
Fomalhairt W.
85 46 27
9S86
87 95 42
9B06
89 4 49
9007
90 43 97
9618
a Peffasi W.
65 48 35
9881
67 22 22
9881
6866 9
70 99 64
a Anetis W.
29 11 54
9874
23 44 46
40S1
95 18 47
fne
96 63 46
9744
Saturn E.
39 11 15
9466
3029 0
9476
98 47 13
9467
97 6 65
9618
Pollux E.
54 44 2
9406
53 0 34
9416
51 17 99
9497
49 34 95
9480
Regulus E.
91 18 9
9416
89 34 55
9496
87 51 57
9480
86 9 14
%m
Mars E.
119 49 34
9676
111 10 6
9688
109 30 64
9B00
107 61 68
9611
94
Jupiter W.
105 19 38
96U
106 59 59
9666
108 39 48
9670
110 19 94
— 1
XIV.
NOVEMBER, 1855.
175
1
GREENWICH MEAN
TIME.
1
LITNAR DISTANCES,
1^
&ju'» N«m» 1
F U
P u
P. h.
1* L.
t s
Uld
Mtduight.
uf
XW
t^t
xvm^.
of 1
XXIK
of
S^
FCHlLilill.
I>1£
ruff.
Dim
0IC
n t »
O 1 N
O 1 ft
O i It
10
SlfN
W,
90 34 21
«IS(?
I 92 237
leu
93 40 59
'xaa
95 19 97
oets
a Pejfa^i
E.
35 50 23
laio
34 40 59
37 J7
33 24 41
SffiO
32 10 51
iOlS 1
a Ariel is
E.
72 23 23
^»Tft
70 39 14
137.^
68 55 I
3371,
67 10 45
39W
Aldebarati
K.
102 40 12
OlM
100 55 32
zuo
99 10 45
m*&
97 25 52
3S43
1 i
Bvtt
w:
103 33 4
^^S^
105 12 2
SA&d
tn<^ 51 4
1091
108 30 12
aoee
a Arietis
E.
58 2ft -ly
33&»
56 44 23
•:a&&
54 59 59
73m
53 15 36
nm
Aldcbaran
E,
SS 39 50
^1333
86 54 33
mm
85 9 3
3317
83 23 20
31 LS
Saiura
E.
110 0 39
2iei|
108 14 11
null
106 27 37
9^^
104 40 58,
32TP
IB
St^H
W.
110 46 37
a^n
11RS6 2
asn'
120 5 29
507A
121 41 58
3074
Jupiter
W.
29 44 31
7M6
30 29 53
^41
32 15 22
31 1 A
34 1 0
3ftll
a Arieti^
E.
44 34 41
'nf}i
42 50 54
O^Pfl
41 7 19
!UJO
39 23 39
3431
Ayebann
E.
74 34 5G
acrt
72 49 7
"man
71 3 18 'JsofTJ
69 17 28
3*37
Ssstura
E.
95 46 43
33fi»
93 59 42
,*a&7
93 12 39
3354
90 23 32
3351
19
Sun
W.
130 2 34
3ffT^
131 42 4
3flaa
133 21 33
SflTT
135 1 0
3ST1I
Jupitet
W.
42 50 U
33a-*
44 36 8
myi
46 22 5
38)1
48 8 3,
2Xli
Fomalhaul W. |
39 14 24
'i7^>^
40 50 37
atom
42 27 33
0060
44 7 5
3aae
a Arietia
E.
30 51 53
iim
29 10 39
^m-i
27 30 10
wa
25 50 39
3*^
Aldebaran
E.
60 2rt 22
33U
58 42 38
3313
56 56 58
2SI7
55 U 23
3231
S^tufn
E,
@i 29 42
asG'j
79 42 32
'J^SA
77 55 24
a3M
76 8 16
33Sd
SO
Jupiter
W.
56 57 28
lim
5B 43 13
^u
60 28 52
3»n
62 14 26
3334
Fom&Uiaut W 1
52 I9 42
gsu«
53 59 41^
is^
55 40 15
3A3n
57 20 46
3«30
AMebaran
E.
46 25 38
'Jim
44 41 4
orifs
42 36 55
aa87
41 13 1
3S9T
Saiurn
E.
67 13 33
33TO
65 26 49
.H74
63 40 11
m9
61 53 40
2»S
Pollux
E.
89 54 21
aatf7
88 7 33
iH70
86 20 50
mi
81 34 12
aint
91
Jnpiter
W.
71 050
aaju
72 45 44
MAI
74 30 29
7&m
76 15 4
3S«e
Fonmlhaut W.
65 43 40' Qa^/rl
67 24 16
iS^tf
09 4 50
■js'jg
70 45 23' 3Aao ||
a Pegafii
Alciebaran
W.
47 18 9
39W
1 48 48 28
26Ge
50 19 24
'jsm
51 50 52
ms 1
E.
32 37 47
34T4
30 55 57
HJW
29 14 42
243S
27 34 8
3Me
Satiini
E,
53 3 0
^It
51 17 20
'JJiK
49 31 52
^1
47 46 37
3MS
Pollux
E,
75 42 39
3W«
73 56 43
2300
72 10 57
3317
70 25 23
33tli
2S
Jt)|>tt«r
W,
84 55 11
140*
86 38 37
Mie
88 21 49
a4aft
90 4 48
3IM
Fomalhaui W.
79 7 27
MM
80 47 29
'mm
82 27 20
3afl7
84 7 0 36n 1
a Pejrufli
W.
59 34 6
^7
61 7 33
9B4I
62 41 8
3^35
64 14 50 38»
Sal urn
E.
39 3 59
3305
37 20 17
3*00
35 3(1 55
3134
33 53 54
3439
Pollu*
E.
61 40 B
^W
59 55 53
3375
58 a 42
2384
56 27 45
3SH
Regulus
E.
98 13 24
SBTfl
96 29 15
Wii
94 45 19
339S
93 1 39
aicto
23
J lip iter
W.
08 35 40
WIH
100 17 10
0504
101 58 17
mi
103 39 6
3flao
Fomalhaut W.
92 21 57
«J?t
94 0 12
^»4^
95 38 10
3617
97 15 48
«74
aPe^i
a A net is
w.
72 3 36
MJ9
73 37 13
mi&
75 10 43
Q6frJ
76 44 5; imSR
w.
2a 29 27
■JJM
30 5 37
rm
31 42 6
36fi7
33 18 50: 7^
11
Saturn
E.
23 25 7
^1613
23 44 33
a&74
22 5 23
mrj
20 26 38
3646
1
PoUux
E.
47 51 46
^m
46 9 23
a4ei
44 27 17
3J7*
42 45 28
3497
Re^uiui
E.
84 26 47
%i^
82 44 36
3i7a
81 2 43
34B4
79 21 7
34OT
M«rs
E.
loe 13 18
a&ji
101 34 51
1X!34
102 56 42
3&46
101 18 50
3<W
U
Jupiter
W.
111 66 €2
^
113 37 41
m\
115 16 31
9630
U6 54 41
3040
176
NOVEMBER, 1855.
XV.
Il — ■ - ■
GREENWICH MEAN TIME.
LUNAB DISTANCES.
5^
Sur't Name
P. L.
P. L.
P. U
P. L.
'ss
and
Noon.
of
nib.
of
Vlh.
of
IXh.
of
^
Poeillon.
DIff.
Difll
Diff.
DiC
O 1 M
O f N
O I w
O f •
34
Foraalhaut W.
98 53 3
0085
100 30 3
9697
102 6 47
9708
103 43 16
9759 '
a Pepisi W.
a Arietis W.
78 17 19
9866
79 50 22
9874
81 23 14
9886
82 55 52
9804
34 55 43
3687
36 32 41
9684
38 9 42
90B4
39 46 43
9087 1
Pollux E.
41 3 56
9499
39 22 42
9518
37 41 47
9596
36 1 10
9S80 ,
Regulu* E.
77 39 49
9S09
75 58 48
9599
74 18 5
9535
72 37 41
9510 1
Man E.
99 41 16
9879
98 3 58
9086
96 26 59
9100
94 50 19
9713
95
a Arietis W.
47 50 22
9718
49 26 38
9796
51 2 43
9784
52 38 38
9744
Aldebaran W.
18 21 10
8067
19 49 35
8018
21 19 25
9988
22 49 59
9901
Pollux E.
27 42 59
9619
26 4 21
9698
24 26 4
9043
22 48 7
9690 ,
Regulua E.
64 20 25
9618
62 41 55
9688
61 3 45
9546
59 25 55
9003 t
Man E.
86 51 30
9784
85 16 41
9798
83 42 11
9818
82 8 0
9838
Venus E.
113 17 4
9803
111 44 35
9908
110 12 26
9994
108 40 38
9040
96
a Arietis W.
60 34 46
9800
62 9 14
9819
63 43 26
9835
65 17 22
9830
Aldebaran W.
30 28 40
9898
32 1 3
9696
33 33 26
9880
35 550
9808
Recrulus E.
51 21 52
9788
49 46 3
7753
48 10 34
9708
46 35 24
97S4
Man E.
74 21 52
9909
72 49 36
9916
71 17 38
9031
69 45 58
9940
Venus E.
101 6 42
8090
99 36 54
8080
98 7 26
8069
96 38 18
8007
Spica E.
105 22 12
2T96
103 46 5
9789
102 10 17
9763
100 34 47
9700
97
a Arietis W.
73 3 17
9890
74 35 41
9909
76 7 49
9930
77 39 42
9989
Aldebaran W.
42 46 24
9999
44 18 7
9985
45 49 40
9943
47 21 4
9009
Saturn W.
21 56 46
9949
23 28 12
9989
24 59 42
9088
26 31 13
9989
Regulus E.
38 44 38
3891
37 11 29
9870
35 38 39
9801
34 6 8
9907
Man E.
62 12 13
8018
60 42 22
8089
59 12 47
8oa
57 43 27
3060
Venus E.
89 17 15
8143
87 49 58
3158
86 22 59
3173
84 66 17
3180 1
Spica E.
92 41 47
9886
91 8 4
9847
89 34 37
9801
88 1 28
9878 !
Sun E.
135 12 5
8309
133 45 58
8910
132 20 8
3930
130 54 34
8943
98
Aldebaran W.
54 55 21
9994
56 25 41
8001
57 55 52
8000
59 95 54
8015
Saturn W.
34 7 55
9909
35 38 56
9908
37 9 49
9976
38 40 33
9909
Regulus E.
26 28 45
9991
24 58 21
8000
23 28 20
8090
21 58 43
8049
Man E.
50 20 39
8118
48 52 51
8139
47 25 16
8140
45 57 65
8151
Venus E.
77 46 48
8353
76 21 42
8306
74 56 50
3378
73 32 13
3989
Spica E.
80 19 34
9983
78 47 56
3943
77 16 31
9964
75 45 20
9965
Sun E.
123 50 37
8806
122 26 33
8819
121 2 43
8831
119 39 7
3319
99
Aldebaran W.
66 63 22
8065
68 22 15
8070
69 51 1
mm
71 19 43
8on
Saturn W.
46 12 7
8014
47 42 2
8019
49 11 51
8095
50 41 33
3030
Pollux W.
22 37 47
8031
24 7 34
3030
25 37 14
80S1
27 6 48
3030
Mara E.
38 44 16
3199
37 18 6
8300
35 52 4
8914
34 26 U
3931
Venus E.
66 32 20
8341
65 8 56
3360
63 45 42
3356
62 22 38
3300 ,
Spica E.
68 12 35
8010
66 42 35
3018
65 12 44
8090
63 43 3
8089
Sun E.
112 44 6
8891
111 21 39
8400
109 59 22
3408
108 37 14
8415
90
Aldebaran W.
78 41 45
8104
80 9 50
8100
81 37 52
8108
83 6 51
8110
Saturn W.
58 8 17
8065
59 37 22
8067
61 6 24
8060
62 35 24
8001
PoUux W.
34 33 10
8069
36 2 10
8003
37 31 6
8006
38 59 58
mm
Man E.
27 18 59
8356
25 53 55
8350
24 28 55
8909
23 3 59
3905
Venus E.
55 29 37
3403
54 7 23
3407
52 45 14
8410
51 23 9
3414
Spica E.
56 16 42
3066
54 47 49
3008
53 19 0
8073
51 50 17
8075 1
Sun E.
101 48 34
3410
100 27 11
3451
99 5 52
3166
97 44 37
L-1;
XVI.
NOVEMBER, 1855.
177
GREENWICH MEAN TIME.
LUNAR DISTANCES.
1 .
Star's Name
P. L.
P. L.
P. L.
P. L.
it
and
Midnight.
of
XVh.
of
xvmh.
of
XXIK
of
^1
94
PMiiion.
Dtff.
Dlff.
Dlff.
Diff.
Fomalhaut W.
O 1 u
105 19 26
9r74S
O i II
106 55 9
9766
O 1 „
108 30 23
9786
O J II
110 5 10
9806
a Pegasi W.
84 28 18
9906
86 0 29
9918
87 32 25
9931
89 4 5
9946
a Arieiis W.
41 23 40
9000
43 0 33
9696
44 37 19
9709
46 13 56
9710
Pollux E.
34 20 51
9&53
32 40 51
9968
31 1 12
9566
29 21 56
9599
Regulus E.
70 57 36
9M9
69 17 49
9677
67 38 22
9591
65 59 14
9604
Mara E.
93 13 56
9790
91 37 51
9741
90 2 5
9766
88 26 38
9769
25
aArietis W.
54 14 20
9763
55 49 49
9766
67 25 3
9776
59 0 2
9788
Aldebaran W.
24 21 1
9IMS
25 52 25
9994
27 24 14
9900
28 56 22
9901
Pollux E.
21 10 32
9976
19 33 18
9691
17 56 25
9706
16 19 56
9799
Regulus E.
67 48 25
9878
56 11 16
9694
54 34 28
9709
62 58 0
9794
Mara E.
80 34 8
9849
79 0 36
9867
77 27 22
9873
75 54 28
9887
Venus E.
107 9 10
9967
105 38 3
9978
104 7 16
9989
102 36 49
3006
36
a Arietis W.
66 51 3
9847
68 24 30
9656
69 57 42
9979
71 30 38
9883
Aldebaran W.
36 38 12
9908
38 10 27
9909
39 42 35
9916
41 14 34
9993
Reffulus E.
45 0 35
9799
43 26 6
9816
41 51 67
9830
40 18 8
9846
Biara E.
68 14 37
9900
66 43 34
9974
65 12 49
9969
63 42 22
8003
Venus E.
95 9 28
8069
93 40 57
3096
92 12 45
3113
90 44 51
3198
Spica E.
98 59 35
9781
97 24 42
9794
95 50 6
9808
94 15 48
9691
27
a Arietis W.
79 11 20
9944
80 42 43
9964
82 13 53
9966
83 44 49
9977
Aldebaran W.
48 52 17
9061
50 23 19
9969
51 54 11
99n
53 24 51
9986
Saturn W.
28 2 43
9940
29 34 11
9946
31 5 32
9950
32 36 47
9956
Regulus E.
32 33 57
9938
31 2 8
9989
29 30 39
9966
27 59 31
9973
Mars E.
56 14 23
3008
54 45 34
3080
53 17 0
3093
51 48 42
3106
Venus E.
83 29 51
3900
82 3 42
3913
80 37 48
3996
79 12 10
3940
Spica E.
86 28 34
9886
84 55 57
9807
83 23 34
9900
81 51 27
9990
Sun E.
129 29 16
3967
128 4 14
3970
126 39 27
3989
125 14 55
3994
28
Aldebaran W.
60 55 48
3094
62 25 31
3084
63 55 1
3046
65 24 18
3056
Saturn W.
40 11 8
9980
41 41 35
9906
43 11 54
3009
44 42 4
3008
Regulus E.
20 29 31
3070
19 0 45
3099
17 32 26
3116
16 4 36
3141
Man E.
44 30 47
3169
43 3 52
3179
41 37 9
3181
40 10 37
3190
Venus E.
72 7 49
3300
70 43 38
3319
69 19 40
3393
67 55 55
3339
Spica E.
74 14 23
9975
72 43 39
9964
71 13 6
9994
69 42 46
3009
Sum E.
118 15 44
3349
116 52 33
8369
115 29 33
3979
114 6 44
3381
29
Aldebaran W.
72 48 21
8081
74 16 54
3091
75 46 19
3006
77 13 35
3100
Saturn W.
52 11 8
3087
53 40 35
3043
55 9 55
3048
56 39 8
8059
Pollux W.
28 36 16
3041
30 6 38
3046
31 34 64
3060
33 4 5
3066
Man E.
33 0 27
3930
31 34 53
3936
30 9 27
3944
28 44 10
3949
Venus E.
60 59 43
3376
59 36 58
3383
58 14 22
8399
56 51 56
3398
Spica E.
62 13 30
3089
60 44 6
3046
69 14 50
3069
57 45 42
3060
Sun E.
107 15 14
3493
105 53 23
3490
104 31 40
3486
103 10 4
3441
30
Aldebaran W.
84 33 47
3114
86 140
3110
87 29 30
3119
88 57 16
3117
Saturn W.
64 4 21
3064
65 33 15
3066
67 2 7
3066
68 30 66
3069
Pollux W.
40 28 45
3079
4157 29
3078
43 26 11
3076
44 54 51
3076
Man E.
2189 7
3970
20 14 20
3974
18 49 38
3977
17 25 0
3961
Venus E.
50 1 8
3418
48 39 12
3499
47 17 20
3496
46 55 32
3497
Spica E.
50 21 37
3078
48 63 1
3060
47 24 27
3083
45 55 57
3066
Sun E.
96 23 27
3463
95 2 21
8466
93 41 17
3467
92 20 16
3468
23
1T8
DECEMBER, 1855.
I.
AT GREENWICH APPARENT
NOON.
I
i
"5
1
■8
THE SUN'S
SIdend
Tim.
ofth.
SMiidl-
uwur
Merid*
Bpationof
from
DHC
for
Ihour.
DiflCfor
Ihour.
De^aUon.
DItt
for
Ihour.
Semi*
addtdlo
AmartKt
Sat.
1
h. m. e.
16 28 11.37
10.791
S.21 4^ 57.0
28.62
16
16.00
70.23
10 53.69
0.985
Sun.
2
16 32 30.77
10.818
21 56 11.7
22.57
16
16.14
70.32
10 30.92
0.963
Mod.
3
16 36 50.80
10.844
22 5 1.1
21.52
16
16.28
70.40
10 7.51
0.989
Tues.
4
16 41 11.46
10.870
22 13 24.9
20.45
16
16.41
70.48
9 43.47
1.015
Wed.
5
16 45 32.72
10.894
22 21 22.8
19.86
16
16.54
70.56
9 18.83
1.089
Thur.
6
16 49 54.55
10.918
22 28 54.7
18.27
16
16.67
70.64
8 63.63
1.061
Fri.
7
16 54 16.92
10.940
22 36 0.2
17.16
16
16.79
70.71
8 27.88
1.068
Sat
8
16 58 39.81
10.960
22 42 39.1
16.05
16
16.91
70.77
8 1.63
1.108
Sun.
9
17 3 3.18
10.980
22 48 51.2
14.98
16
17.03
70.83
7 34.89
1.122
Mon.
10
17 7 27.00
10.998
22 54 36.3
18.80
16
17.14
70.89
7 7.70
1.140
Tues.
11
17 11 51.24
11.014
22 59 54.2
12.67
16
1755
70.95
6 40.10
1.157
Wed.
12
17 16 15.86
11.029
23 4 44.7
11.52
16
17.86
71.00
6 12.12
1.172
Thur.
13
17 20 40.81
11.048
23 9 7.6
10.87
16
17.46
71.04
6 43.79
1.186
Fri.
14
17 25 6.08
11.055
23 13 2.8
9.22
16
17.56
71.08
5 15.16
1.198
Sat.
15
17 29 31.62
11.065
23 16 30.1
8.06
16
17.66
71.12
4 46.27
1.208
Sun.
16
17 33 57.40
11.075
23 19 29.5
6.89
16
17.75
71.16
4 17.13
1.218
Mod.
17
17 38 23.39
11.088
23 22 0.9
5.7216
17.84
71.18
3 47.78
1.226
Tues.
18
17 42 49.55
11.089
23 24 4.1
4.55
16
17.92
71.20
3 18.26
1.282
Wed.
19
17 47 15.85
11.095
23 25 39.1
8.88
16
17.99
71.22
2 48.60
1.288
iThur.
20
17 51 42.27
11.099
23 26 45.9
2.21
16
18.06
71.28
2 18.82
1.242
Fri.
21
17 56 8.78
11.101
28 27 24.5
1.08
16
18.12
71.24
1 48.95
1.245
Sat.
22
18 0 35.33
11.101
28 27 34.8
0.15
16
18.18
71.25
1 19.04
1.247
Sim.
23
18 5 1.89
11.101
23 27 16.8
1.88
16
18.23
71.25
0 49.12;i.246||
Mon.
Tues.
24
25
18 9 28.43
18 13 54.94
11.100
11.099
23 26 30.6
23 25 16.1
2.61
8.69
16
16
18.27
18.31
71.24
71.23
0 19.22
1.245
1.242
0 10.65
Wed.
26
18 18 21.39
11.096
23 23 33.4
4.87
16
18.34
71.22
0 40.46; 1.28911
Thur.
27
18 22 47.73
11.091
23 21 22.6
6.05
16
18.37
71.21
1 10.16
1.284
Fri.
28
18 27 13.94
11.085
23 18 43.7
7.22
16
18.38
71.19
1 89.73
1.227
Sat
29
18 31 39.98
11.078
23 15 36.7
8.88
16
18.39
71.16
2 9.12il.810
Sun.
30
18 36 5.82
11.069
23 12 1.8
9.64
16
18.40
71.13
2 38.33! 1.212
Mon.
31
18 40 31.44
11.058
23 7 69.1
10.70
16
18.41
71.09
3 7.31
1.202
Tues.
32
18 44 66.79
S.23 3 28.6
16
18.42
71.06
3 36.03
Nora. — Mm* TIOM of llw Saoikllwn
Lhe adMeal Ttne. 11
II.
DECEMBER, 1855.
179
GREENWICH MEAN TIME.
1
a
THE
MOON'S
Meridian Pmh^. ;
Age.
fimm.
I^liaiiigbi.
Noon.
Die Tor
MidAlgi'iL
nilf: fhr
1 llrtur
mif for
1 hour.
1
a
14 48.9
14 4S).5
14 53,1
14 4^9
14 50 J
14 55,9
54 15.2
54 17,8
54 30,9
-oaa
0.75
54 1^,1
54 23.1
54 41,1
-h04l
0.65
0,93
IS 35,8
19 15.2
19 55.0
HI.
1.^7
1.65
1.6S
21,7
22.7
23.7
4
5
6
14 59.3
13 7.7
15 17.7
15 3.2
15 12.5
15 22,9
54 53.3
55 23,9
56 0.5
1.12
1.42
1.00
55 7,8
55 41,7
56 20.0
1,29
1.62
20 35.9
21 19.3
22 6.4
1.76
2m
24.7
25.7
26.7
7
B
B
15 28.3
15 39 3
15 49.5
15 33.8
15 H,^
15 54.1
56 40.0
57 19.8
57 57,3
1.67
1,64
l,4ti
57 0.0
57 39,2
m 14.2
3.66
1,57
1.34
22 58.1
23 5^4.6
6
2.25
2.43
27.7
28.7
0.1
10
11
1^
15 58.3
16 5,3
16 10.0
16 2.1
16 7.9
16 n.6
58 29 4
58 55.0
59 12.3
1.2!
0.90
0.67
58 43.1
59 4.6
59 18.2
1.07
0,72
0.40
0 54.9
1 56.8
2 57,5
2.56
2,55
2,47
1.1
2.1
3.1
la
14
15
16 12.6
16 lao
16 11.8
16 13,1
16 12,6
16 10 6
59 21,8
59 23.1
59 18.5
-1-0.21
—0.07
o.:jo
59 23.3
59 21.5
59 14.4
-H>.OG
—0,19
0.S&
3 55,2
4 48 7
5 39.0
2.32
2.16
2,05
4.1
5.1
6.1
16 '
17
18
16 9,2
16 5.4
16 0.9
16 7.4
16 3.2
15 58.2
59 9.1
5H 55.8
58 38.8
0,47
0.63
0.77
59 2.8
58 47,7
58 29,1
0.65
0.70
0.84
6 27.1
7 14,2
8 1.9
1.98
1.98
2,02
7.1
8.1
9.1
19
20
21
15 55,3
15 48,9
15 414
15 52,2
15 45,3
15 37,3
58 18,5
57 55,0
57 27.9
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1.20
58 7,2
57 41.9
57 13.1
0.98
1,13
1.27
8 51.3
9 43.2
10 37.7
2,1!
222
2,31
10.1
11.1
12.1
22
23
24
15 33,2
15 24.4
15 15.4
15 28.8
15 19,8
15 11.2
56 ^lA
56 25.1
55 52.3
1.32
1.H7
1.31
56 41.4
56 8.5
55 36,7
1,31
1.37
1,28
11 34,2
12 30.7
13 25.5
2.35
2.32
2.22
13.1
14.1
15.1
25
26
27
15 7.0
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14 53.4
15 3,1
14 56,1
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54 5t.O
54 31.7
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0.77
55 7.3
51 42 0
5^1 23.6
M5
0.93
0.69
14 17,2
15 5.0
15 49.4
2.07
1.92
L7S
16.1
17.1
18,1
28
29
SO
31
14 49.5
14 47.8
14 48.7
14 52.7
14 48,3
14 47,9
14 50,3
14 55,6
5^1 17.5
54 11,6
54 15.1
54 29.0
0.42
--0,06
H-0.37
0.81
54 13.4
54 12.0
54 20.7
54 40,1
—0.25 ;
+0.14
0.68
1.03
16 31.0
17 10,7
17 49.8
18 29.5
K69
1.64
1.64
1.69
19.1
20.1
21,1
22.1
32
14 59.5
15 3.9
51 53.7
+1.23
55 9.9
H-1.38
19 11.0
1.79
23,1
180
DECEMBER, 1855.
III.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right AMenaion.
Dlff.
forlm.
Declination.
Diffl
forlm.
Hour.
Diff.
for 1 ro.
DecUiulkn.
Dis:
forlra.
SATl
URDA
Y 1.
MONDAY
3.
h. m. •.
■
O 1 M
M
h. m. a.
a.
O f «
a
0
10 44 23.61
1.^287
N.12 37 28.3
13364
0
12 9 64.64
1.7639
N. 1 64 3.2
13394
1
10 46 13.24
1.8267
12 24 53.2
13310
1
12 11 40.39
1.7646
140 3.2
14307 1
2
10 48 2.69
1.8SK28
12 12 15.2
13366
2
12 13 26.28
1.7669
126 2.4
14319
3
10 49 51.97
13199
1159 34.5
13.700
3
12 15 12.21
1.7660
1 12 0.9
14381
4
10 51 41.07
13170
1146 51.2
13.748
4
12 16 68.19
1.7668
0 57 58.7
I43tt
5
10 53 30.01
13143
1134 5.4
13.786
6
12 18 44.23
1.76n
0 43 66.8
14364
6
10 55 18.78
131 16
112117.0
13337
6
12 20 30.32
1.7687
0 29 62.2
14366
7
10 57 7.39
13069
11 8 26.1
13368
7
12 22 16.48
1.7608
0 16 48.0
14376',
8
10 58 55.84
13063
10 55 32.8
13308
8
12 24 2.70
1.7710
N. 0 1 43.3
14.084
9
11 0 44.14
13087
10 42 37.1
13.948
9
12 26 48.99
1.7799
S. 0 12 22.0
14388
10
11 2 32.29
13013
10 29 39.0
13388
10
12 27 36.36
1.7784
0 26 27.8
14.109
11
11 4 20.29
1.7W8
10 16 38.6
18.037
11
12 29 21.80
1.7747
0 40 34.1
14.108
12
11 6 8.15
1.7966
10 3 35.9
13366
12
12 31 8.32
1.7760
0 64 40.7
14.114
13
11 7 55.87
1.7943
9 50 30.9
18.109
13
12 32 64.92
1.7n4
1 8 47.7
14.190 ,
14
11 9 43.45
1.7930
9 37 23.8
18.188
14
12 34 41.61
1.7788
1 22 66.0
14.136
16
11 11 30.90
1.7808
9 24 14.4
13.178
15
12 36 28.38
1.7809
137 2.6
14.199
16
11 13 18.23
1.78n
9 11 3.0
18.306
16
12 38 15.24
1.7818
1 61 10.3
14.183
17
11 15 5.43
1.7897
8 57 49.5
18.348
17
12 40 2.20
1.7886
2 6 18.3
14.186
18
11 16 52.52
1.7888
8 44 33.9
18.977
18
12 41 49.26
1.7869
2 19 26.6
14.117
19
11 18 39.50
1.7833
8 31 16.4
18310
19
12 43 36.42
1.7869
2 33 34.7
14.138
20
1120 26.38
1.7806
8 17 56.8
18348
20
12 45 23.68
1.7887
2 47 42.9
14.136
21
11 22 13.15
1.7787
8 4 35.3
18376
21
12 47 11.05
1.7906
3 161.2
14.187
22
11 23 59.82
1.7n3
7 61 11.9
18.406
22
12 48 68.63
1.7996
3 16 69.5
14.136
23
n 25 46.41
1.7767
N. 7 37 46.6
18.487
23
12 60 46.14
1.7946
& 3 30 7.6
14.183
SUJ
raAY
2.
TU]
ESDA^
f 4.
0
11 27 32.91
1.7743
N. 7 24 19.5
18.467
0
12 69 33.88
1.7968
a 3 44 16.6
14.181
1
11 29 19.32
1.7738
7 10 50.6
18.497
1
12 64 21.76
1.7991
3 68 23.4
14.198
2
11 31 5.65
1.7716
6 67 20.0
13391
2
12 56 9.77
13016
4 12 31.0
u.m
3
11 32 51.91
1.77W
6 43 47.6
18366
3
12 57 57.93
13M0
4 96 38.3
14.1 n
4
11 34 38.10
1.7693
6 30 13.6
18369
4
12 69 46.25
13066
4 40 46.2
14.111
5
11 36 24.22
1.7683
6 16 37.9
18308
6
13 1 34.73
130O3
4 64 61.8
14.M6
6
U 38 10.29
1.7673
6 3 0.6
18334
6
13 3 23.37
13191
6 8 57.9
14308
7
11 39 56.30
1.7661
6 49 21.8
13360
7
13 6 12.19
13160
6 23 3.6
14380
8
114142.25
1.7666
6 35 41.6
13386
8
13 7 1.18
13181
6 37 8.8
14381
9
11 43 28.16
1.7618
6 2159.7
18.709
9
13 8 60.36
13919
5 61 13.4
14373
10
11 45 14.03
1.7641
6 8 16.5
18.733
10
13 10 39.72
13M8
6 5 17.4
14383 1
11
11 46 59.86
1.76U
4 54 31.9
13.766
11
13 12 29.27
13976
6 19 20.8
14330
12
11 48 45.65
1.76K)
4 40 46.0
18.777
12
13 14 19.01
13807
6 33 23.4
14398
13
11 50 31.41
1.7636
4 26 68.8
18.798
13
13 16 8.95
13841
6 47 25.3
143)6
14
11 52 17.16
1.7693
4 13 10.3
13318
14
13 17 69.09
13376
7 126.4
14313
15
11 54 2.89
1.7630
3 69 20.6
13338
16
13 19 49.44
13110
7 16 26.6
18387
16
11 55 48.61
1.7618
3 45 29.5
13396
16
13 21 40.01
13146
7 29 25.8
13380
17
11 57 34.32
1.7617
3 31 37.4
18378
17
13 23 30.79
13109
7 43 24.1
IS388
18
11 59 20.03
1.7618
3 17 44.2
18387
18
13 25 21.80
13690
7 67 21.4
18346,
19
12 1 5.74
1.7619
3 3 49.8
18316
19
13 27 13.03
13666
8 11 17.5
18397
20
12 2 51.46
1.7630
2 49 64.4
13.989
20
13 29 4.60
13697
8 25 12.5
183in
21
12 4 37.19
1.7691
2 35 58.0
18348
21
13 30 56.20
13638
839 63
13386
22
12 6 22.94
1.7197
9 22 0.7
18364
22
13 32 48.15
13680
8 62 68.9
18383
23
12 8 8.72
1.76SS
9 8 2.4
18380
23
13 34 40.36
1379^1
9 6 60.1
18341
24
12 9 54.54
1.7639
N 164 3.2
13394
24
13 36 32.80
13766
a 9 80 40.0; 18318
IV.
DECEMBER, 1855.
181
1
GREENWICH MEAN TIME.
THE
MOOJTS RIGHT ASCENSION AND DECLINATION.
' Hiiur.
R^bl jUanalcrq,
DffT
fori ID.
DedltdUon.
fori m.
Hour,
RlfhiliCBnttoQ.
Diff
fer ] m.
DBdlBllUtB.
WEDI
resD.
KY 5.
FRIDAY
7.
h. m. t.
f.
O 1 IP
II
h- m 9-
9.
0 1 H
*l
0
13 36 3^.80
tjmm
S. 9 20 40.0
I3.HI&
0
15 12 55,60
^1«^
S. 19 35 27,4
ll.»10
L
13 39 25.52
tJS«»
9 34 2H.5
ja.TW
1
15 15 5,08
%11\7
19 46 43,4
11.^34
2
13 40 18.50
[.a^ffl
9 48 15.4
n.no
2
15 17 16,20
a.iTfti
19 .'17.54.2
n.iM
3
13 42 11.76
i.fww
10 2 0.8
iS.749
3
15 19 27.17
9.13^
20 8 59,7
ii.(m
4
13 44 5 20
J.«Uft
10 15 44,7
13.7 1.V
4
15 21 38,50
3. 1949
2O]9.'iO.0
ia.gM
5
13 45 59,10
i.mn
10 2926.8
n-rni
5
15 23 50,45
a*»i7
20 30 54.5
IOjSS
6
13 47 53,111
uwm
10 43 7.1
i*.Gadi
6
15 20 2.77
ii.^(m
20 4143,6
10.7W
7
13 49 47.57
i^sms
10 ."iO 45.6
tt^rr
7
15 28 15.54
5.3157
20 52 26,9
iojs:^
8
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i.9iri
11 10 22.3
1X.4IIS
8
15 30 28.76
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21 3 4,4
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n
IS 53 37.20
h^\m
11 23 57.0
!»"■*<» '
0
15 32 42.43
3.3317
21 13 36.1
w,m
1 1*5
13 55 32.47
j.fnas
11 37 29.7
ll.irJ7
10
15 34 56.56
^3I9S
2124 1.7
10,177
1 11
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i.ttim
1151 0.3
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11
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10,37*
13
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12
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lo.nr
13
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13
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9.V»
21 54 41.7
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1 ^^
14 3 IfKiM
t^fHil
12 31 18.8
la^aia
14
15 43 57.67
a*370l
22 4 42.4
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1 15
14 5 13.44
\Mm
12 44 40,3
WHSM
15
15 46 14,09
3.9T;e
22 14 36.7
9.SA0
16
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i.nflfla
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16
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17
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22 31 5.6
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18
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13 24 30.1
pais
18
15 53 6.H
7.sQm
22 43 40.0
*J19
10
14 13 4.03
um^
13 37 41.6
mm
19
15 55 24.42
%^am
22 53 7.6
0.403
20
14 15 2.52
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13 50 50.4
15.1-35
20
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23 2 28.3
fl.WV
21
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21
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22
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0
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0
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2
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15 8 42.7
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2
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33 56 1,8
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3
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4
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5
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5
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9
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15
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16
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18 2 23.6
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16
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17
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17
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18
15 0 4.29
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18 26 7,7
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18
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ti^rwi
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19
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1L71S
19
16 52 57.28
3.4»OT
26 141.4
s^m
20
15 4 19.66
a.is»
IS 49 33.4
u.m
20
16 55 26,44
3-4»9
26 7 46.0
tjm \
21
15 6 27.99
%U-2A
19 1 0.2
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21
16 57 55,98
^■49M
26 1341,3
iJS4a 1
29
15 8 36.76
ijm
19 12 40.2 11.178
22
17 0 25,90
a.»l9
26 19 27.2
ijBB5
23
15 10 45,90
3JST0
19 24 6. 3 J i(.»4
23
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^J-MW
26 25 3.7
flJfJT
24
15 12 55.60
«.MUS
M9 35 27.41 »i^'fl
24
17 5 20.87
s.aui
S26 30 30.5
B,SffI
182
DECEMBER, 1855.
V.
GREENWICH MEAN TIME.
THE MOON'S RIGHT ASCENSION AND DECTJNATION.
Hour.
Right AKMuion.
Diff.
forlm.
DecUnatioD.
Diff.
forlm.
Hour.
Right AKfliMioa.
Diff.
forlm.
DwliDAtioa.
DHR
i>rlm.
SUl
^DAY
9.
TUESDAY
11.
h. in. •.
«.
O 1 «
«
h. m. «.
■•
0 r N
If
0
17 5 86.87
3.5141
S 86 30 30.5
5497
0
19 10 80.80
34843
a87 34 17.3
840
1
17 7 57.90
3.5001
36 35 47.8
5.306
1
19 13 7.80
34830
37 30 51.1
8400
S
17 10 39.88
. 3.5900
36 40 55.3
5448
8
19 15 45.70
34808
87 17 13.8
8.7n
3
17 13 1.01
3.5817
86 45 53.0
4478
3
19 18 83.49
34988
87 13 35.8
8408
4
17 15 33.08
3.537S
86 50 40.8
4.713
4
19 81 1.15
34300
87 9 85.5
4408
5
17 18 5.48
3.5438
86 55 18.7
4445
5
19 33 38.68
349tt
87 5 14.6
4.3J8
6
17 80 38.33
3.5483
86 59 46.5
4477
6
19 36 16.07
34310
87 0 58.7
4.450
7
17 33 11.38
3.5585
37 4 4.1
4408
7
19 38 53.30
34108
86 56 19.7
4443
8
17 35 44.65
3.5687
87 8 11.6
4408
8
19 31 30.37
34165
86 51 35.6
4435
9
17 88 18.33
3.5688
37 18 8.7
8407
9
19 34 7.87
34185
36 46 40.7
5407
10
17 30 53.89
S.M87
87 15 55.6
8404
10
19 36 43.99
34104
86 4134.8
5.188
11
17 33 86.54
3.5784
37 19 33.0
8410
11
19 39 80.53
34073
36 36 18.0
5408
13
17 36 1.08
3.4779
37 33 57.9
84tt
13
19 41 56.85
34088
36 30 50.5
5448
13
17 38 35.89
3.5838
87 36 13.3
8.107
13
19 44 33.97
34003
86 85 13.3
5.798
14
17 41 10.96
3.5806
87 89 18.1
3401
14
19 47 8.88
34005
36 19 33.1
5400
15
17 43 46.88
3.5008
37 38 13.3
3414
15
19 49 44.57
34038
36 13 83.5
0488
16
17 46 81.85
3.5048
87 34 55.8
3.085
16
19 58 30.03
34800
86 7 13.8
0.3B8
17
17 48 57.66
3.5087
37 37 38.5
3455
17
19 54 55.36
34651
86 0 58.5
6488
18
17 51 33.69
3.0034
87 39 50.4
3474
18
19 57 30.35
34819
85 54 81.3
6406
19
17 54 9.94
3.6000
87 43 1.5
3403
19
30 0 5.00
34ni
85 47 39.7
6.777
30
17 56 46.40
3.6004
87 44 1.6
1410
30
80 8 39.49
- 34738
85 40 47.9
6448
31
17 59 83.05
3.6135
37 45 50.7
1.737
31
30 5 13.73
34084
85 33 45.8
7.110
33
18 1 59.89
3.6155
37 47 88.9
14tt
83
80 7 47.69
34880
85 86 33.4
7488
83
18 4 36.91
MO]
3.6188
NDAY
S.87 48 55.9
10.
1458
33
80 10 81.39
WED]
SESBi
SM 19 11.0
iY 12.
7407
0
18 7 14.09
3.0310
8.37 50 18.0
1.178
0
80 18 54.81
34546
S.85 11 38.5
7498
1
18 9 51.43
3.0385
37 51 16.9
0488
1
80 15 87.95
34408
85 3 55.9
7.793
3
18 13 38.93
3.0388
87 53 10.7
0400
8
80 18 0.79
34450
84 56 3.5
7407
3
18 15 6.54
3.0980
37 53 53.3
0417
3
80 80 33.34
34400
84 48 1.8
8.130
4
18 17 44.89
%mi
37 53 34.7
0480
4
80 83 5.59
94840
34 39 49.1
0401
5
18 30 33.16
3.0830
37 53 44.9
04tt
5
80 85 37.53
34907
84 31 87.4
0441
6
18 83 0.13
3.6Sn
87 53 53.9
0455
6
8O881 9.14
34348
84 88 56.1
0400
7
18 35 38.30
3.0853
37 53 51.5
0.188
7
80 30 40.43
94188
84 14 15.3
0.780
8
18 38 16.36
3.0805
37 53 37.9
0431
8
80 33 11.40
34188
84 5 85.1
8415
9
18 30 54.59
3.08n
37 53 13.9
0410
9
80 35 48.04
34078
83 56 85.5
•410
10
18 33 33.89
3.0887
87 58 36.6
0400
10
80 38 13.34
34038
83 47 16.7
0.331
11
18 36 11.34
3.0805
87 51 49.0
0400
11
80 40 43.31
34007
83 37 58.7
9470
13
18 38 49.63
34401
37 50 49.9
1477
18
80 43 11.94
34010
83 38 31.6
9497
13
18 41 88.05
3.0405
87 49 39.6
1.307
13
80 45 41.83
34858
83 18 55.5
9.670
14
18 44 6.49
3.6408
37 48 17.8
1-457
14
80 48 10.17
34705
83 9 10.5
9498 >
15
18 46 44.95
34410
87 46 44.8
1440
15
80 50 38.77
347r
83 59 16.7
9400 ;
16
18 49 33.41
34408
37 45 0.4
1485
16
80 53 7.03
94070
88 49 14.8
10.IU 1
17
18 53 1.85
34406
87 43 4.6
3434
17
80 55 34.93
94090
88 39 3.1
10480 1
18
18 54 40.87
34400
87 40 57.5
3.318
18
80 58 3.46
94861
83 38 43.4
10400 '
19
18 57 18.66
34804
37 38 39.1
3.403
19
31 0 39.64
94503
88 18 15.4
10400 '
80
18 59 57.01
34887
87 36 9.3
3401
30
31 8 56.47
3.4449
88 7 39.0
10470 ,
81
19 8 35.31
34878
37 33 88.3
3-780
81
81 5 83.93
34881
8156 54.4
10413
1 S
19 5 13.55
S4M8
37 30 35.9
3408
88
81 7 49.03
34890
81 46 1.6
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83
19 7 51.71
34856
37 87 33.8
8*156
83
81 10 14.76
34350
8135 0.9
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1 24
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19 10 89.80
34843
s 87 34 17.3
8448
84
81 18 40.13
34197
8 8183 58.3
1I4U
VI.
DECEMBER, 1855.
183
GRFENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour,
Blf ht AvcemiDft.
(brim.
DifT
fatlm.
tluur.
Bigbx AvoiuUiTi.
DadiDJttJou.
ht 1 m.
THUH
^DAI
^ 13,
SATURDAY 15,
h. nL *,
1.
O 1 »
M
km*. j
h
P 4 H
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0
21 13 40.12
^A\m
S2123 52.2
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0
23 3 7.00'
a^iaM
jfl0 26 7.5
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1
21 15 5J2
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1
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2
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0.4071
21 1 II.3I
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2
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9 54 55.1
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3^4013
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6
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33 15 0.68
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9
23 21 24.02
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22
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r
184
DECEMBER, 1855.
VII.
GREENWICH MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
Right AMendon
Diff
fori no.
DocUmUoo.
Diff
fbrlm.
Hour.
Right AacaDdon.
Dlff.
fori m.
DedinaUoa.
DiflU
forlm.
MONDAY
17.
WEDNESDAY 19.
h. m. t.
t.
O 1 «
M
h. m. t.
•.
O 1 «
H
0
0 42 38.28
3.0641
N. 9 39 1.7
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0
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1
0 44 42.13
9.064S
2 48 20.4
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1
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15 03 56.9
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2
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2
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3
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4
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4
2 32 9.57
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5
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3 53 22.6
10.311
5
2 34 20.50
3.1841
15 58 36.0
18U80
6
0 55 1.75
3.0666
4 9 34.6
10.186
6
2 36 31.66
3.1880
16 12 2.5
18400
7
0 57 6.78
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4 25 45.0
10.160
7
2 38 43.06
3.1919
16 25 23.6
18408
■8
0 59 9.86
3U)68S
4 4153.9
10.183
8
2 40 54.70
3.1960
16 38 39.2
18.315
9
1 1 14.00
3.0606
4 58 1.1
10.108
9
2 43 6.58
3.1999
16 5149.1
18.130
10
1 3 18.20
furm
5 14 6.4
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10
2 45 18.70
3.3040
17 4 53.4
184)98 1
11
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13436
19
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3.3133
17 30 44.6
13498
13
1 9 31.21
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13
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3.3108
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14
1 11 35.71
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6 18 8.7
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14
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17 56 12.2
13480
15
1 13 40.30
24m3
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18 8 46.9
13430 1
16
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16
2 58 36.62
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17
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18
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18
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19
1 21 59.59
34)837
7 38 21.7
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19
3 5 18.99
3.3417
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20
124 4.66
34)606
7 53 4.7
16.604
20
3 7 33.62
3.3400
19 10 6.8
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21
1 26 9.84
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8 8 45.0
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21
3 9 48.51
3.3608
19 22 3.5
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22
1 28 15.14
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8 24 22.5
16.600
22
3 12 3.66
3.3646
19 33 53.6
11.778
23
I 30 20.57
34)014
N. 8 39 57.1
16.661
23
3 14 19.00
9.3800
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11466
TUE
SDAY
1
THU
RSDA^
f 20.
0
1 32 96.12
34)086
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9 57 4.3
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3 25 39.98
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20 42 30.9
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5
1 42 55.94
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10 12 20.1
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5
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6
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6
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21 4 27.0
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7
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7
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8
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9
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9
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2136 96.2
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10
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12
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13
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14
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15
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15
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16
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12 56 11.9
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16
3 53 90.34
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17
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13 10 41.9
14.468
17
3 55 40.33
3.8351
22 56 8.8! 0.436
18
2 10 32.54
3.1440
13 25 7.5
14.800
18
3 58 0.56
34801
23 531. ll 0400
19
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3.1474
13 39 28.6
14.816
19
4 0 91.03
23 14 45.31 O.MI
90
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13 53 45.2
14.380
20
4 9 41.73
34460
23 93 51.41 9408
21
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14 7 57.2
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21
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93 39 49.9 04M
22
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144)00
22
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93 4138.7 0.767
23
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23
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94865
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DECEMBER, 1855.
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DECEMBER, 1855.
IX.
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT
ASCENSION AND DECLINATION.
Hour.
Right Aaceuaion.
Diff.
fori m.
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for 1 m.
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13309
X.
DECEMBER, 1855.
187
GREENWICH
MEAN TIME.
THE
MOON'S RIGHT ASCENSION AND DECLINATION.
Hour.
1
1
Right AK6D>ion.
DiflT.
forlm.
DeclinatioiL
DifC
fori m.
Hour.
Right Aocenaion.
Diff.
for 1 m.
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fori m.
SATl
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i 29.
MONDAY
31.
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8.
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II
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II
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20
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21
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SUP
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30.
TUESDAT?
', JAN
. 1, 1856.
0
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PHASES (
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[.
7
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1.7490
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1.7490
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10
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12 17 44.62
12 19 29.63
12 21 14.67
12 22 59.75
1.7491
1.7498
1.7496
1.7600
1.7606
1.7611
1.7618
1 18 19.0
1 4 25.7
0 50 31.7
0 36 37.4
0 22 42.5
N. 0 8 47.3
S. 0 5 8.3
13.887
13.896
13.904
13.9J3
13.930
13.936
18.931
(C Last Quar
0 New Moo
3) First Qua]
O Full Moor
C Last Quar
ter, .
[1, .
rter,
ter, .
Day. h. m.
. 1 2 11
. 8 22 18
. 15 18 56
. 22 22 39
31 0 4
8
3
9
5
8
17
12 24 44.88
1.7636
0 19 4.3
13.936
(C Apogee,
Day. h.
.4
18
12 26 30.06
1.7686
0 33 0.6
13.940
• •
. . 1 6
19
12 28 15.30
1.7646
0 46 57.1
13.944
(C Peripee,
C Apogee,
• •
. .13 16
. . 29 3
6
20
12 30 0.61
1.7666
1 0 53.7
13.947
• •
8
21
12 31 45.99
I.766B
1 14 50.6
13.950
22
12 33 31.43
1.7661
1 28 47.6
13.953
23
12 35 16.95
1.7504
1 42 44.6
13.952
24
12 37 2.55
1.7607
& 156 41.7
13.963
: — : -. 1
188
DECEMBER, 1855.
XI.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
JS 1
•* £ Sur'a Nama
P. L.
P.L.
P.L.
P. U
and
Noon.
of
mh.
of
VTh.
of
IXh.
of
PoHitioa
DIff.
DIff.
Diff
Diff.
■
O 1 II
O 1 K
O 1 II
O 1 *
1
Aldebaran W.|
90 25 2
sui
91 52 46
3130
93 20 31
8130
94 48 16
8130 i
Saturn
W.
69 59 44
8069
71 28 32
3068
72 57 21
8067
74 26 11
3066 1.
Pollux
W.
46 23 30
3076
47 52 9
3077
49 20 47
8076
50 49 26
3075 1
Spica
\enu8
E.
44 27 28
8067
42 59 2
3067
41 30 37
8066
40 2 13
8068 1
E.
44 33 46
84W
43 12 1
3430
41 50 17
8480
40 28 34
3480
Sun
E.
90 59 16
3460
89 38 17
8170
88 17 19
8470
86 56 21
MIO
1
2
Saturn
W.
81 50 47
8056
83 19 51
3052
84 49 0
8047
86 18 14
«a
Pollux
W.
58 13 3
8066
59 41 55
8062
61 10 51
8056
62 39 52
8052 l|
Regulu*
W.
22 0 34
8143
23 27 51
3182
24 55 22
8131
26 23 6
8110
Spica
E.
32 40 9
8086
31 11 42
8083
29 43 12
8062
28 14 40
8078
Venus
E.
33 39 51
84^
32 18 2
3430
30 56 8
8417
29 34 11
aiis '
Sun
E.
80 11 5
3457
78 49 53
8454
77 28 37
8449
76 7 16
8444
3
Saturn
W.
93 46 6
8011
95 16 5
8002
96 46 15
9004
96 16 35
3065
Pollux
W.
70 6 44
8031
71 36 31
8012
73 6 29
80(M
74 36 37
3906 j
Regulu*
W.
33 45 6
8056
35 14 9
8045
36 43 26
8084
38 12 56
8034 1
Sun
E.
69 18 55
84ia
67 56 62
8404
66 34 40
8896
65 12 19
8367 ,
4
Saturn
W.
105 50 50
2015
107 22 12
39SA
108 53 46
9994
110 25 34
3913
Pollux
W.
82 9 54
3MI
83 41 8
3042
85 12 34
3932
86 44 12
3922 !
Re^ulus
W.
45 43 34
2973
47 14 20
3002
48 45 20
3950
50 16 35
2019
Sun
E.
58 17 57
3338
56 54 30
3327
55 30 50
8816
61 6 57
8305 '
6
Pollux
W.
94 26 4
»60
95 59 14
3847
97 32 41
3834
90 6 25
26il
Regulus
W.
57 56 44
•2875
59 29 35
3862
61 2 43
3648
62 36 8
2»i4
-Sun
E.
47 4 6
8348
45 38 48
8331
44 13 15
8317
42 47 26
3J04 1
6
Re^us
W.
70 27 42
3780
72 2 55
3751
73 38 27
3738
75 14 17
37*4
Spica
E.
16 31 39
»29
18 5 38
3790
19 40 7
in5
21 16 8
3755 '
Sun
E.
35 34 28
8130
34 7 6
8136
32 39 28
tiu
31 11 33
8101
11
Spica
W.
83 40 35
3815
85 26 13
9810
87 11 58
9805
88 57 50
3301
Sun
W.
27 7 35
3673
28 44 51
36<M
30 22 19
9656
31 59 58
9649
Jupiter
E.
41 36 44
3877
39 52 36
2378
38 8 23
9870
36 24 5
3309
FoinalbautR. |
47 35 49
3673
45 58 33
3091
44 21 41
3710
42 45 15
3732 '
a Pegasi
E.
69 7 1
3732
67 30 51
9728
65 54 48
9735
64 18 54
3743 1
12
Sun
W.
40 10 27
3031
41 48 54
9617
43 27 26
9614
45 6 2
«ll
Jupiter
Fomalhau
w.
27 42 15
3Mi
25 57 54
3371
24 13 38
9375
22 29 2H
2jn 1
tE.
34 52 51
3096
33 21 18
3900
31 51 4
8070
30 22 18
3157
a Pe^fasi
E.
5623 5
3815
54 48 57
3836
53 15 16
9862
51 42 7
2HH0
a Arietta
E.
9634 2
3S39
94 48 59
93J6
93 3 55
9837
91 18 49
^,yf^V
13
Sun
W.
53 19 51
3809
54 58 43
3602
56 37 35
9001
58 16 28
3(«l
a Pegaai
E.
44 6 56
8002
42 38 37
8151
41 U 29
8216
39 45 39
82m
a Arietis
E.
82 32 49
ss-s
80 47 31
«•
79 2 15
9831
77 17 1
3333
14
Sun
W.
66 30 46
9006
68 9 33
9607
69 48 18
9600
71 27 1
3611 1
a Arietis
E.
68 31 27
3344
66 46 31
awH
65 1 41
9350
63 16 55
3355 '
Aldebarui E.
98 50 16
3330
97 4 45
9321
95 19 10
33«
93 33 48
3123 i
Saturn
E.
118 16 47
3368
110 30 0
3360
114 43 15
»272
112 66 34
»/78 ,
I
XII.
DECEMBER, 1855.
189
GREENWICH MEAI*J
TIME,
'
LUfffAB DISTANCES.
i
Midnight.
E U
of
Din: 1
XYK
of
xvnih.
P. L
of
nw.
XXP, j
Aidebaran W,
m 16 t
tm
Q 1 H
97 43 47
91111
O 1 «
91» M 34
aut
Q Jl II
100 39 23
S^tunv
W.
75 55 U
xm
77 33 54
»0M
78 52 49
wai
80 21 46
soae
Pollux
W.
5*2 IR 0
itni
53 46 47
iima
55 15 30i
mrti
56 44 15
!U)O0
Spic;a
Vonii*
E.
3N 33 414
aotrr
37 5 24
an**;
35 36 59 1
itm}
34 8 34
mm 1
K.
39 fS fit
MM
37 45 H
trifi
36 23 24
%iM
35 1 30
iU'ja
Sun
E.
SCi 35 2*2
■4eT
84 14 21
uc^
82 53 18
141B3
81 32 13
MCI
9
Salurii
W,
H7 47 34
I0i7
89 17 1
aoai
UC 4Q8S
ttm
92 16 16
90 1«
Follux
w.
U tt 0
MHT
65 3S 14
$KHl
ft7 7 36
ioa4
R8 37 ti
iKm
Reguiua
w.
21 Bl ft
WW
21» 19 15
^mi^
30 47 31*
«rfH
32 1ft Ift
90St
Venua
E.
^($ 46 4
SiJTa
25 17 25
am-i
23 48 41
SiM^
22 19 53
3064
E,
2f^ 1^2 !l
»4^i»
2H 50 3
Mm
25 27 51
MOO
24 5 34
tsui
Suit
E,
74 45 49
matt
73 24 16
3433
72 2 36
U^
70 40 49
34»i
3|
Saturn
W.
m 47 6
W?7
101 17 47
m»
102 48 38
IMKI
104 10 39
mm
Pollux
W,
76 B 55
a087
77 37 24
aff79
79 8 3
!»70
80 38 53
3963
He^ulim
\V.
3ft 42 39
9014
41 12 34
3IXM
42 42 42
39^
44 13 1
OO&I
Sum
E.
63 40 4H
^'taio
02 27 7
%3f&
ftl 4 15
a36&
1 59 41 12
334fl
i
Saturn
W.
III 57 36
'sm
113 29 51
asm
115 2 20
3S8Q
116 35 4
»»
PoUux
W.
e« 16 3
9BU}
BO 48 «
3897
91 20 32
^]a^
02 53 10
-asTi
H(wuii]s
W.
51 48 5
5937
53 19 50
mi
54 51 52
3»l
5ft 24 10
m»
SlfN
E-
6s3 4*2 51
81!^
51 18 31
1301
49 53 57
£»a
48 29 9
9m
5
Pollux
w.
100 4D 26
^m
102 14 44
r^f^
103 40 18
srsa
105 24 8
irm
fti*eatlua
w.
64 {» 51
3»11
6-^ 43 51
V^Ti
67 18 10
rda
68 62 47
srni
1
Suj*
E,
41 21 25
31BI
3y 66 2
SITS
39 28 26
4 ISA
37 1 35
tti9
6
Reifulua
VV.
76 50 n
rjio
78 m 5*2
;S(J9fl
80 3 38
aesj
81 40 43
3lMi
Spiea
Sum
K.
22 50 35
insft
24 2ft 26
3f?l7
26 2 45
*fy9
27 39 2ft
Ma
E.
20 43 24
MM
S8 15 1
3tnh
26 4ft 24
»ftJ7
25 17 34
SfM
U
Splca
W.
90 43 48
wsn
92 20 52
3SU
94 1ft 1
t»9
96 2 16
^m
SVH
W.
33 37 47
*J>t3
35 15 45
■JU3*
36 53 51
3B30
38 32 5
ae'l/l
Jupitf^r
E.
34 3y 4fi
ElOS
35i 55 25
-jaotj
31 11 2
jam
29 26 38
^imi
Fomalhaut E.
41 » 18
<I7S0
39 33 5ft
■J799
37 59 18
layao
36 25 35
3KW
a Pej^aai
E
62 43 11
37M
61 7 42
^im
59 32 30
intB
57 67 37
^m I
12
Sl'N
W.
4ft 44 42
aeoe
48 23 2e
^woe
50 2 12
■J60&
51 41 0
^jdtia
Jupii^r
W.
20 45 20
asffij
19 1 44
S4«*
17 18 20
wjfl
15 35 21
aw3
Fomslhaut K.
28 55 17
3170
27 30 30
M03
26 8 6
3W6
34 48 22
tm
a Ppgait
E.
50 9 35
asaj
48 37 43
tffJwe
47 6 35
as»!J7
45 3ft 18
ami
a Arieiia
E.
m 33 41
23S4
87 48 31
^su
8ft 3 10
0331
84 18 5
SMO
13
Bv^
W.
50 55 21
OiOl
ftl 34 14
SMM
63 13 6
ioos
54 51 57
Mm
& Paffasi
K
38 21 li
a;^
m 58 21
Mfii
35 37 13
85Sfi
34 18 22
871«
a Arietis
E.
75 31 50
233a
73 46 39
23i4fi
72 1 32
K31
70 16 27
«ui
14
Sun
W.
73 5 41
9*1^
74 44 18
MJ*
76 22 59
flttlS
78 1 23
mi
a Arietis
E.
ftl 3^ le
aaw
59 47 42
asaj
58 3 16
2310
50 18 58
1 ^sm
Aldebarmn K.
91 48 2a
1 aa'3ft
m 2 53
aBaf7
88 17 39
aan
80 32 23
; ftus
Saiuni
E.
111 0 55
£174
109 23 17
am
107 36 43
S370
105 50 12
i3
190
DECEMBER, 1855.
XIII.
GREENWICH MEAN TIME.
LUNAR DISTANCES.
i^
Star's Name
P. L.
P. U
F.h.
p. u ,
^1
41
and
Noon.
of
nih.
of
VP».
of
IXh.
of ,
PMiiion.
Diff.
DiflT.
Diflr.
Diff. 1
O 1 li
O » II
O 1 H
O 1 «
15
Sun
W.
79 39 49
9634
81 18 12
9696
83 56 31
9099
84 34 46
9SSS
Jupiter
W.
15 7 10
9464
16 49 28
9487
18 33 10
9435
30 15 9
3417
a Arietis
E.
54 34 51
9884
52 50 53
3303
51 7 7
9401
49 33 33
3410
Aldebaran
K.
84 47 10
9335
83 3 2
9340
81 17 1
9344
79 33 6
9348
Satura
E.
104 3 44
9983
102 17 20
9987
100 31 1
9900
98 44 47
9394 ,
16
Sun
W.
92 44 48
9651
94 22 34
9655
96 0 14
9660
97 37 49
1
9688
Jupiter
a Arietis
W.
28 52 02
9401
30 35 36
9401
33 19 10
9401
34 3 43
9408
E.
40 49 23
9467
39 7 23
9488
37 35 46
9499
35 44 31
9516
Aldebaran
E.
70 49 2
9886
69 4 41
9873
67 30 27
9877
65 36 19
9889
Saturn
E.
89 54 50
9800
88 9 4
9811
86 23 20
9815
84 37 42
9818
17
Sun
W.
105 44 9
9686
107 21 8
9609
108 57 59
9697
110 34 43
9709
Jupiter
W.
42 39 44
9417
44 22 54
9430
46 6 0
9434
47 49 0
9497
Aldebaran
E.
56 67 48
9415
55 14 34
9498
53 31 32
9480
51 48 40
9437
Saturn
E.
75 51 2
9349
74 6 3
9346
72 21 11
9851
70 36 36
9355
Pollux
E.
100 35 11
9348
98 50 21
9353
97 5 38
9857
95 31 1
9803
18
Sun
W.
118 36 36
9790
120 12 36
9736
121 48 28
9743
133 34 13
9749
Jupiter
w.
56 22 43
9448
58 5 9
9453
59 47 28
9458
61 39 40
9463
Aldebaran
E.
43 17 29
9487
41 35 58
9400
39 54 45
9514
38 13 51
SMB
Saturn
E.
61 54 24
9383
60 10 33
9888
58 26 31
9894
56 42 47
9401
Pollux
E.
86 39 35
9885
84 55 39
9300
83 11 50
9895
8128 8
9400
19
Jupiter
W.
69 58 52
9401
71 40 18
9497
78 31 36
ayn
75 3 46
1
9B00
Aldebaran
E.
29 55 19
9639
38 17 8
9609
36 39 37
9609
35 3 56
9730
Saturn
E.
48 6 31
MS6
46 33 47
9446
44 41 14
9459
43 58 53
9461
Pollux
E.
72 51 33
9430
71 8 39
9434
69 35 53
S441
67 43 16
9447
90
Jupiter
a Arietis
W.
83 36 19
95a
85 6 33
95S0
86 46 37
3597
88 36 31
9565
W.
18 15 11
3144
19 43 27
3054
31 11 33
9978
33 43 13
9019
Saturn
E.
34 30 30
9514
32 49 36
9517
31 9 0
9541
39 38 44
9656
Pollux
E.
59 12 30
9489
57 30 51
9480
55 49 32
9494
54 8 1
9109
Regulus
E.
95 46 31
M88
94 5 1
9497
93 33 43
9604
90 43 36
9610
31
Jupiter
a Arietis
W.
96 43 18
9605
98 33 6
9614
100 0 42
9094
101 39 5
96n
W.
30 28 51
9778
33 3 48
9761
33 39 7
9751
35 14 37
9745
Pollux
E.
45 44 5
9543
44 3 53
95M
42 23 51
9MI
40 44 3
9670
RefTulus
E.
82 19 32
9M0
80 39 39
95fl0
78 59 36
9566
77 19 55
9877
Mars
E.
117 49 5
9603
116 13 14
9700
114 35 34
9708
119 59 5
9718 '
23
Jupiter
W.
109 47 58
9880
111 35 5
96H0
113 1 59
9700
114 38 39
97H)
a Arietis
W.
43 13 34
9740
44 49 11
9743
46 34 54
9747
48 0 32; 97»
Pollux
E.
32 28 11
9618
30 49 40
9639
39 11 34
9680
37 33 22' 9M0
Roffulus
E.
69 4 54
9696
67 36 34
96M
65 48 38
9646
64 10 35! 9656 <
Mars
E.
104 59 46
9764
103 34 31
•n5
101 49 30
9785
100 14 42 9795 .
23
a Arietis
W.
55 57 8
9780
57 33 3
9787
59 6 47
9705
60 41 32 9803 i
Ref^ilus
E.
56 4 33
9707
54 38 3
9719
53 51 49
9731
51 15 50 9743
Mars
E.
93 33 59
9847
90 50 32
98M
89 17 19
9868
87 44 18 9879
Spies
E.
110 5 45
•808
108 39 3
9708
106 53 34 9719
105 16 19 9799 1
24
a Anetis
W.
68 31 30
9845
70 4 59
1
98M
71 38 14 9867
1
73 11 15 9676
XIV.
DECEMBER, 1855.
191
GREENWICH MEAN
TIME.
LIJUAE DISTA^CKS.
!|^
Sur't X«w
P. L
P U
RL
PV,
^ =
uid
Midnight.
of
XVH.
af
XVUlb.
of
xjaK
«f
15
FiMitiafL
Oiff.
WT,
Dtff.
our.
Sum
w.
&6 12 56
96M
0 1 J, ,
87 5) 2; 4^
0 t u
89 29 a
0 ^ Ir
' 91 6 58
mm
Japlter
a Aliens
w.
21 5B m
MH
23 41 39: ^«
25 25 3
3400
27 8 31
^ium
K
47 40 13
m»
45 37 6 aiai
44 14 16
iui
42 31 40
34U
Aldtiljaran
K.
77 47 17
'hH^
76 2 35
3M7
74 17 58
' *jm-2
72 33 28
33M
Baturii
E.
m 58 38
^s»
95 1:2 35
^310(3
93 26 35
2304
91 40 41
3aoe
16
SVN
W,
flu i:i 1^
"i&m
100 52 40
gera
102 29 56
3678
104 7 5
3»3
Jupiter
w.
3:1 46 14
2K>i
37 20 43
itin
39 13 8
UlO
40 56 28
^U
B Artetis
11
31 3 40
'2&33
32 23 13
3&d3>
30 43 14
3^12
29 3 4t
^usa
Aldebiintn
i:.
m 6:^ IS
'sauti
62 8 27
'ja94
60 24 44
3401
58 41 11
aiOB
Saturn
E.
H-2 52 3
*3«
81 G 42
^1337
79 21 22
ISS&l
77 36 8
Qsn
17
Svs
w.
11^^ n 20
ijm
113 47 50
1i\^
115 24 13
2719
1 17 0 28
7m
Jupiietr
w.
49 31 5i}
'iui
51 14 47
M^
52 57 32
a^av
54 40 1 1
9444
A Ideb^iTun
E.
50 fi i
U4«
43 23 35
M.'Ki
46 41 20
^14^
44 ^*^ 17
mti
Salum
E.
68 51 47
raun
67 7 15
taaa
65 22 50
99171
63 38 33
'm:4
PuUux
E.
m 36 at
^fflWe
ftl 52 7
jnj
90 07 50
m&
88 23 39
*£m
IS
Sum
U\
124 69 47
'jjatf
120 35 13
^UJ
12s [0 31
Ti^
129 45 40
mti
Jupiicr
\\\
03 11 45
■>46a
64 53 43
U13
66 35 34
'U19
68 17 17
Sisa
A Icbbarau
E,
3<J 33 17
ia4i
34 53 6
il£6J
33 13 20
2A63
31 34 4
'jiHn
S^Lum
E,
51 59 13
■itm
53 15 481 ml
51 32 32
24^11}
49 49 26
urn
Fdlust
E.
79 44 33
'MiiS
IH I 5
IJll
70 17 46
iin
74 34 35
04^
Itl
Jii inter
W.
76 43 47
iaiA
1 78 24 39
^ii
80 5 22
asgp
81 45 55
A UJehano
K.
33 27 S
27^
21 52 26
2|i&2
20 19 5
^»
18 47 22
dum ,
Saium
E.
41 16 45
uw
39 34 50
^J4^J
37 53 9
■jitti
36 11 41
3ifi»
Foil MX
E.
06 0 4N
Xii>3
64 ly 29
'um
62 36 19
Mffi
00 54 19
ims
90
JupitPT
W
00 6 14
3Jt:i
91 45 46
^630
93 25 8
^im
95 4 19
^m
a Arieiis
W
24 14 8
iBTT
25 46 56
JHW
27 20 23
'»H
28 54 22
^tm
Sal urn
E.
27 48 49
j^;3
26 9 17
■2SW'
24 30 U
3tll7
22 51 42
964^
Pollux
K.
52 26 51
2510
50 45 52
laio
49 5 5
1i^
47 24 29
aaae
Refill us
E.
B9 1 37
jftie
87 20 40
-i&37
85 40 12
J^
83 59 47
^a
31
Jupiter
W,
103 17 17
J»40
104 55 17
Mim
106 33 4
^SfitiO
108 10 38
iMHIl
a Aritnia
W.
36 50 17
2711
38 26 2
JTW
40 1 49
3740
41 37 36
rm
PtUiuJc
E.
39 4 27
2iS7S
37 25 3
'JiiHti
35 45 52
i.WH
34 6 55
ixm
Reh^iiIub
E.
75 40 2H
I»"
74 1 15
^m
72 22 14
Jew
70 43 27
»iti
Mara
E.
Ml 22 49
J7i?
109 46 45
afTJw
108 10 53
374a
100 35 13
31M
n
Jupiter
W.
116 15 6
^*)
117 51 19
isem
U9 27 17
■3f74'i
121 3 1
U7A3
a Arielia
w.
49 36 5
J7W
51 11 33
Xim
52 46 53
3760
54 22 5
3771
Poirux
E.
25 55 35
jijfin
21 18 2
3ff73
22 40 44
lam
21 3 41
mt
Regultis
K,
62 32 55
%M
60 55 28
OTTd
59 18 16
Q6i^
57 41 17
aavT
Miira
E.
tig 40 7
am
97 05 44
MIA
95 31 35
JgUt
93 57 40
3d»I
23
a A net is
W.
6-2 15 46
38U
63 56 0
^xt
65 24 2
asw
66 57 51
3698
ReguluH
E.
49 40 6
snftS
18 4 37
aiM
46 29 24
37; fl
44 54 27
^m
Mare
E.
tt6 11 32
oeoi
84 30 1
mi
83 6 43
mi
81 34 30
Ifl^
Spied
E.
103 40 IB
ST40
102 4 31
Tt»\
100 38 58
mm
98 53 40
orra
24
a A riutis
W.
74 44 4
»ul
76 16 42
3ift4
77 40 9
90C15
79 21 22
m&
192
DECEMBER, 1855.
XV.
GREENWICH MEAN
TIME.
LUNAR DISTANCES.
1 s
--C Star's Name
P. L
P. L.
P. L.
PL
"c = and
Noon.
of
nih.
of
Vlh.
of
IXh.
of
24
Potfiiion
Diff.
Diff.
Diff
9892
Diff.
Saturn
W.
O 1 H
19 30 33
3913
O 1 N
21 2 36
2899
O 1 II
22 34 56
O 1 Ji
24 7 25
9800
Reffulus
E.
43 19 45
12901
41 45 19
3814
40 11 9
9826
38 37 15 »«8
Mars
E.
80 2 49
SMA
78 31 14
9945
76 59 52
2956
75 28 44, »n
Spica
E.
97 18 35
2782
95 43 441 ^93|
94 9 7
2904
92 34 44 «i5
Venus
E.
120 42 45
3180
119 16 12
8192
117 49 53
8204
116 23 49; 3918
1 1
25
a Arietis
W.
80 53 22
9925
82 25 10
9934
83 56 46
2W4
85 28 9; 2W6
Saturn
w.
31 50 1
9809
33 22 21
2905
34 54 34
2910
36 26 40 1 «'«
Regulus
E.
30 51 55
3006
29 19 44
9921
27 47 52
2937
26 16 20, »M 1
Mars
E.
67 56 25
a022
66 26 40
8032
64 57 7
8043
63 27 47
8052
Spica
E.
84 46 21
9808
83 13 21
2878
81 40 34
2989
80 8 1
3909
Venus
E.
109 16 52
8274
107 52 10
8286
106 27 42
8297
105 3 27
8808
26
Saturn
W.
44 5 4
90S0
45 36 19
3968
47 7 25
^»65
48 38 22 »ra 1
Pollux
W.
18 22 4
9960
19 53 8 2966
21 24 3
2973
22 54 49 2990 1
Mars
E.
56 4 12
8102
54 36 5 8111
53 8 9
3119
51 40 23 8129
Spica
Venus
E.
72 28 29
2947
70 57 10 2956
69 26 2
2965
67 55 6j 2974
E.
98 5 28
3308
96 42 29 3373
95 19 42
8393
93 57 6 8893
27
Saturn
W.
56 10 55
8006
57 41 Oi 8012
59 10 58
3018
60 40 49 8023 '
Pollux
W.
30 26 32
8014
31 56 28; 3oao
33 26 16
8026
34 55 56 8033
Mars
E.
44 24 14
8170
42 57 29, 3176
41 30 51
3193
40 4 2li 3189
Spica
E.
60 23 9
8016
58 53 161 3022
57 23 31
8U30
55 53 55 8085 1
Venus
E.
87 6 52
8439
85 45 19' 3446
84 23 55
8IM
83 2 40 8463 1
Sun
E.
133 16 27
8419
131 54 31 3424
130 32 42
8431
129 11 1 8486
1
28
Saturn
W.
68 8 29
8046
69 37 44! »*»
71 6 64
8054
72 36 0 8086
Pollux
W.
42 22 28
8059
43 51 28
3061
45 20 24
8065
46 49 16 8069 :
Mars
E.
32 53 43
8216
31 27 53
St^.X)
30 2 7
8224
28 36 26 8«6
Spica
Venus
E.
48 27 47
8065
46 58 55
8069
45 30 7
8073
44 1 25' 8076
E.
76 18 22
8496
74 57 52| 8496
73 37 26
8508
72 17 6j 8«n
Sun
E.
122 24 14
8463
121 3 9 8467
119 42 8
8471
118 21 llj 8476
29
Saturn
W.
80 0 48
8066
81 29 37 8068
82 58 26
8008
84 27 15 80«
Pollux
W.
54 12 46
8079
55 41 21 8090
67 9 55
8082
58 38 27. 8060
1
Regulus
W.
18 2 18
8195
19 28 45| 8173
20 55 27
8160
22 22 24, 814»
Spica
E.
36 38 50
8091
35 10 30, 8094
33 42 13
8096
32 13 59 8097
Venus
E.
65 36 22
8524
64 16 25 1 8525
62 56 29
8596
61 36 34 8«n
Sun
E.
HI 37 16
iiSl
110 16 34 »9i
1
108 55 52
8495
107 36 11 8496
. 30
Saturn
W.
91 51 49
8057
93 20 5l! 8053
94 49 58
8050
96 19 9 8M7
Pollux
W.
66 1 42
8060
67 30 30 8065
68 59 22
8061
70 28 19 SMS *
ReiTulus
W.
29 40 0
8110
31 7 57, 8104
32 36 2
8007
34 4 15 8001
Spica
E.
24 53 1
8099
23 24 50 8100
21 56 40
8102
20 28 33 8108
1
Venus
E.
54 56 49
85-»
53 36 47 3617
52 16 42
8615
50 56 35 8619
1
31
Sun
E.
100 51 27
8474
99 30 34 8471
98 9 37
8467
96 48 36 8468
j
Saturn
W.
103 46 25
8020
105 16 131 8013
106 46 10
8006
108 16 15 SOB
Pollux
W.
77 54 21
8(00
79 23 57, »»
80 53 41
8016
82 23 31 8008
Regulus
W.
41 27 29
8052
42 56 37; 8044
44 25 55
8035
45 55 24| 8026
Venus
E.
44 14 59
8491
42 54 25 8491
41 33 43
8479
40 12 55, 8471
Sun
E.
90 2 2
8431
88 40 21 8423
87 18 31
8415
85 56 32
8407
XVI.
DECEMBER, 1855.
193
GREENWICH MEAN TIME.
LUNAB DISTAIICES.
1.
Star's Name
P. L.
P. L.
P. L.
P. L.
and
PoaiUoo.
Midnight.
of
DiflT.
aeee
XVh.
of
DifT.
xvnih.
of
DifT
XXIh.
of
Dlff
1
[24
Saturn
W.
O 1 It
25 39 57
O f II
27 12 31
9889
O I II
28 45 04
3801
O 1 «
30 17 35
9894
Regulus
E.
37 03 37
3B51
35 30 15
38a»
33 57 11
3878
32 24 24l ««
Mars
E.
73 57 50
2977
72 27 09
9968
70 56 41
3998
69 28 26; M09
Spica
Venus
E.
91 00 36
3896
89 26 42
28S7
87 63 2
9847
86 19 35
9857
E.
114 57 58
8237
113 32 21
3338
112 06 57
8361
110 41 48
8363
85
a Arietis
W.
86 59 18
996ft
88 30 14
9976
90 00 58
9906
91 32 28
3996
Saturn
W.
37 58 38
9998
39 30 28
9980
41 02 09
9987
42 33 41
3044
Regulus
E.
24 45 08
9970
23 14 18
9989
21 43 51
8038
20 13 48
8043
Mars
E.
6158 39
8063
60 29 44
8073
59 01 01
8083
57 32 31
8093
Spica
E.
78 35 41
9910
77 03 35
9990
75 31 41
9939
73 59 59
3939
Venus
E.
103 39 S5
8890
102 15 37
8381
100 52 01
8848
99 28 39
8863
26
Saturn
Vf.
50 09 10
9979
51 39 49
9986
53 10 20
3998
54 40 42
8000
Pollux
W.
24 25 27
9987
25 55 56
9994
27 26 16
8001
28 56 28
8007
Mars
E.
50 12 48
8188
48 45 24
8146
47 18 11
8166
45 51 08
8163
Spica
E.
66 24 21
99S8
64 53 47
9993
63 23 24
8001
61 53 12
8006
Venus
E.
92 34 41
8403
91 12 28
8413
89 50 25
8403
88 28 33
8431
27
Saturn
W.
62 10 33
8090
63 40 11
3038
65 09 43
8039
66 39 08
8048
Pollux
W.
36 25 28
8089
37 54 53
8044
39 24 11
8049
40 53 23
8066
Mars
E.
38 37 59
8196
37 11 45
8303
35 45 38
8308
34 19 38
8313
Spica
Venus
E.
54 24 26
8049
52 55 05
8018
51 25 52
8064
49 56 46
8000
E.
81 41 34
8469
80 20 35
8476
78 59 43
8483
77 38 59
8488
Sun
E.
127 49 27
84a
126 28 00
8449
125 06 39
8464
123 45 24
8460
28
Saturn
W.
74 05 03
8060
75 34 03
8060
77 03 01
8068
78 31 56
8066
Pollux
W.
48 18 04
8079
49 46 48
8078
51 15 30
8076
52 44 09
8076
Mars
E.
27 10 48
8399
25 45 13
8383
24 19 42
8934
22 54 13
8387
Spica
E.
42 32 46
8oeo
41 04 12
8083
39 35 41
8086
38 07 14
8066
Venus
E.
70 56 49
8A11
69 36 37
8616
68 16 29
8617
66 56 24
3630
Sun
E.
117 00 19
8479
115 39 31
8480
114 18 44
8481
112 57 59
8483
29
Saturn
W.
85 56 05
8066
87 24 57
80M
88 53 51
8060
90 22 49
3060
Pollux
W,
60 07 01
8078
61 35 37
8076
63 04 16
8074
64 32 67
8071
Regulus
W.
23 49 34
8189
25 16 56
8131
26 44 28
8138
28 12 10
3116
Spica
Venus
E.
30 45 46
8090
29 17 34
3099
27 49 24
8098
26 21 13
8097
E.
60 16 40
8697
58 56 46
8636
57 36 49
8633
56 16 50
8631
Sun
E.
106 14 30
8464
104 53 48
8483
103 33 03
8480
102 12 16
8477
30
Saturn
W.
97 48 24
8018
99 17 43
8087
100 47 10
8081
102 16 44
8036
Pollux
W.
71 57 20
8066
73 26 25
8061
74 55 35
8044
76 24 53
8036
Regulus
Spica
Venus
W.
35 32 36
8084
37 01 05
8on
38 29 43
8009
39 58 31
8060
E.
19 00 27
8106
17 32 24
8110
16 04 26
8118
14 36 32
8118
E.
49 36 24
8610
48 16 11
8606
46 55 52
8601
45 35 29
8496
Sun
E.
95 27 30
8407
94 06 18
8463
92 45 00
8446
91 23 35
8488
31
Saturn
W.
109 46 30
9989
HI 16 56
9981
112 47 33
9978
114 18 19
9966
Pollux
W.
83 53 37
9996
85 23 52
9990
86 54 17
9061
88 24 54
9971
Regulus
W.
47 25 04
8018
48 54 55
8007
50 24 59
9997
51 55 16
9086
Venus
E.
38 51 59
8464
37 30 55
8460
36 09 45
8468
34 48 28
8446
Sun
E.
84 34 23
8890
83 12 04
8888
81 49 34
8879
80 26 53
8806
25
194
VENUS, 1855.
JANUARY.
FEBRUARY.
GREENWICH MEAN TIME.
i
GREENWICH MEAN TIME.
1
Aaceasion.
Var.or
RA.
for 1
hour.
Apparent
DecauaiioiL
Var.of
Dec.
fori
hour.
Noon.
H
Meridian
Paaaage.
Aacentfion.
Var.of
R.A.
for 1
hour.
Noon.
DeSmatkm.
Var.of
Dec.
fori
hour.
Noon
n
Meridian
P«aaa«e .
Nuon.
Noon.
Noon.
Noon.
Noon.
h. m. «.
8.
O 1 u
h. m.
h. m. a.
a.
O 1 M
h. m
1
19 6 6.82
18.6S8
-23 26 46.7
16.54
0 23.8
1
214731.21
13.333
-14 54 31.0
61.90
1 2.9
2
191134.30
.033
23 19 48.5
18.31
0 25.3
2
2162 24.20
.183
14 2933.4
69.89
1 3.8 i
1 »
1917 1.16
.505
2312 7.8
30.08
0 26.8
3
21 67 15.97
.133
14 412.3
63.85
1 4.7
4
19 22 27.34
.675
23 3 44.7
31.84
0 28.3
4
22 2 6.54
.083
13 38 28.4
64.78
1 5.6
'
19 27 62.76
.543
22 54 89.3
33.60
0 29.8
5
22 6 55.94
13.035
181222.6
65.66
1 6.5
6
19 33 17.37
18.508
22 44 51.8
35.85
0 31.2
6
221144.20
11.988
12 46 65.5
66.55
1 7.4
\l
19 88 41.15
.478
2234 22.5
37.08
0 82.7
7
2216 31.34
.943
1219 8.0
67.39
1 8.2
19 44 4.07
.437
22 23 11.9
38.79
0 84.1
8
22 21 17.40
.897
1152 0.8
68.19
1 9.0
! 9
19 49 26.10
.398
22 11 20.6
30.47
0 35.5
9
2226 2.40
.853
1124 84.7
68.97
1 9.8
10
11
19 54 47.17
.857
21 58 49.3
33.13
0 36.9
10
2230 46.37
.813
1056 60.4
69.71
1 10.6
20 0 7.22
13.818
21 45 38.4
33.77
0 88.3
11
2285 29.87
11.773
1028 48.7
70.49
1 11.4
12
20 5 26.20
.368
21 31 48.3
85.89
0 39.7
12
22 4011.43
.733
10 080.4
71.09
1 12.2,
.13
20 10 44.09
.333
21 17 19.5
36.99
0 41.1
13
22 44 52.56
.695
93156.3
71.73
1 12.91
14
2016 0.87
.176
21 2 12.5
38.57
0 42.4
14
22 4982.80
.659
9 8 7.3
79.34
1 18.61
,15
1
202116.62
.138
2046 28.0
40.13
0 43.7
15
22 5412.17
.633
884 4.1
73.91
114.3
1
!
16
2026 31.01
13.079
2030 6.7
41.64
0 45.0
16
22 58 50.70
11.589
8 4 47.5
73.45
1
1 16.0
17
208144.31
.039
2013 9.3
43.13
0 46.3
17
23 8 28.42
.556
73518.3
73.96
115.7*
18
2086 56.89
13.977
19 55 86.4
44.59
0 47.5
18
28 8 5.37
.535
7 687.3
74.44
1 16.4
19
20 42 7.22
.935
1937 28.7
46.03
0 48.8
19
2812 41.59
.495
636 45.3
74.88
1 17.0
20
20 47 16.78
.873
19 18 46.8
47.44
0 60.0
20
281717.12
.467
6 648.1
75.39
1 17.7,
1
21
2062 25.07
13.819
18 59 31.5
48.82
0 51.2
21
23 21 62.02
11.441
68581.8
75.68
1
1 18.8!
22
20 57 32.08
.766
18 89 43.5
60.16
0 52.3
22
23 26 26.80
.416
5 610.6
76.04
1 19.0'
23
21 2 37.81
.713
18 19 23.6
51.47
0 53.5
23
23 31 0.00
.393
484 41.6
76.37
1 19.6
24
21 7 42.25
.658
17 58 32.6 53.76
0 54.6
24
2385 38.15
.871
4 4 5.0
76.M
120.2
25
21 12 45.38
.603
178711.1
54.01
0 56.7
25
23 40 5.79
.851
88821.7
76.99
120.8
26
21 17 47.20
13.548
171519.9
55.34
0 56.8
26
23 44 87.98
11.333
8 2 82.6
77.15
121.4
|27
21 22 47.71
.494
1652 59.7
56.43
0 57.9
27
23 49 9.77
.317
88188.6
77.33
122.0!
|28
21 27 46.92
.440
168011.2
57.59
0 68.9
28
23 53 41.19
.303
8 0 40.6
77.48
122.5
29
21 88 44.86
.388
16 6 55.3
58.73
0 59.9
29
23 5812.28
.389
129 89.4
77.60
1 23.1
30
2187 41.55
.336
154812.8
69.81
1 0.9
80
0 243.09
.179
058 86.8 77.69
128.7.
81
21 42 87.00
13.385
1519 4.4
60.87
1 1.9
31
0 718.67
11.970
- 02780.4,77.76
124.2
32
2147 81.21 n.338
-14 54 81.0
61.90
1 2.9
82
01144.05
11.363
+ 0 8 86.4 77.79 1 24.8 1
! i
11
DarofMontKlat
6th. 'llth. 16ih.
ai^t-Wh-'aiii.
Day of Month, 5th.
lOtK
Idth
MKh.
••llu
30ih.l
S«mldUm. 4.8
4.9
H U
4.9 4.9
If 1 II
4.9 4.9
N
4.9
Semidiameter 6.0
0
5.0
a
5.1
n
5.1
a
5.1
5.21
jHor.Pftr 5.0
5.1
5.1 6.1
5.l' 5.1
5.1
Hor.PanOlmz 5.2
5.2
5.8
5.8
6.3
•1
VENUS, 1855.
195
MARCH.
APRIL. 1
1
J
GREENWICH MEAN TIME.
1
1
■ ■ - ■ -
GREENWICH MEAN TIME.
Ascension.
Var.of
R.A.
fori
hour.
DMlinaUon
Var.of
Dk.
fori
hour.
MorldUn
A»ceaa\oa.
Var.of
R.A.
fori
hour.
ApMrent
Declination.
Var.of
Dec.
fori
hour.
Noon,
H
66.48
Meridian
Pawage.
XooH.
Xoon
Noon,
Noon.
Noon,
Noon.
Noon.
t
1 1
h. m. 8.
23 58 12.28
a.
11.389
O 1 u
- 1 29 39.4
H
77.60
h m.
123.1
1
h. m. ■.
2 1924.85
11.786
O 1 u
+18 54 24.3
h. m.
142.1
2
0 2 48.09
.979
0 58 85.8
77.69
123.7
2
2 24 6.95
.773
14 20 49.8
65.63
142.8
3
0 7 13.67
.370
- 0 27 30.4
77.75
124.2
3
2 28 49.92
.809
14 46 64.4
64.74
143.6
4
01144.05
.303
+ 0 03 36.4
77.79
124.8
4
2 33 33.79
.848
15 12 37.4
63.63
144.4
5
0 16 14.27
.3A7
0 34 44.1
77.81
125.4
5
2 38 18.62
.888
15 87 58.1
63.88
145.2
6
020 44.39
11.354
1 5 51.9
77.80
125.9
6
2 43 4.43
11.939
16 2 55.8
61.01
146.0
7
02514.45
.962
1 36 58.9
77.76
126.5
7
2 47 51.23
11.971
16 27 29.7
60.90
146.9
8
029 44.50
.353
2 8 4.2
77.68
127.0
8
2 5239.03
13.013
16 51 39.1
59.67
147.7
9
034 14.58
.355
2 89 7.1
77.58
127.6
9
2 57 27.82
.054
17 15 23.4
58.81
148.6
10
038 44.72
.359
810 6.9
77.43
128.2
10
3 217.62
.006
17 88 41.8
57.71
149.6
11
043 14.98
11.304
8 41 8.1
77.35
128.7
11
8 7 8.41
13.187
18 183.6
56.59
150.4
12
0 47 45.39
.371
4 11 54.9
77.05
129.3
12
8 12 0.20
.180
18 28 58.1
65.43
161.8
13
052 16.00
.380
4 42 41.5
76.83
129.9
13
3 16 53.05
.333
18 45 54.5
54.35
152.2
14
056 46.85
.391
5 13 22.1
76.55
130.4
14
8 21 46.92
.367
19 7 22.1
53.04
153.2
15
10117.98
.804
5 48 55.9
76.35
131.0
15
3 26 41.85
.810
19 28 20.3
51.80
154.1
16
1 05 49.43
11.317
6 14 22.3
78.98
131.6
16
8 31 37.82
13.358
19 48 48.5
50.53
155.1
17
1 10 21.23
•S8S
6 44 40.6
75.58
132.2
17
8 3634.80
.895
20 8 45.8
49.38
156.1
18
114 53.43
.851
714 50.1
75.19
182.8
18
8 41 82.78
.437
20 28 11.6
47.90
157.2
19
1 19 26.07
.889
7 44 50.0
74.77
133.4
19
8 46 31.77
.478
20 47 5.1
46.54
168.2
20
1 23 59.16
.889
8 14 39.4
74.83
1840
20
8 5131.74
.519
21 5 25.7
45.16
159.3
21
1 28 32.77
11.411
8 44 17.5
78.84
134.6
21
3 56 32.66
13.556
21 28 12.8
43.75
2 0.3
22
133 6.93
.484
9 18 43.8
78.88
135.2
22
4 134.51
.596
21 40 25.8
43.33
2 1.4
23
1 37 41.66
.459
9 42 57.5
73.79
135.8
23
4 637.28
.684
2157 4.0
40.66
2 2.6
24
1 42 16.99
•485
10 11 57.7
73.31
136.5
24
4 1140.93
.669
22 13 6.9
39.37
2 3.6
25
1 46 52.95
•813
10 40 43.6
71.60
137.2
25
4 1645.48
.704
22 28 84.0
37.87
2 4.8
26
1 51 29.56
11.840
11 9 14.5
70.96
137.8
26
4 21 50.75
13.788
22 48 24.7
36.34
2 5.9
27
156 6.85
.589
11 87 29.6
70.39
188.5
27
4 2656.86
.771
22 57 38.4
34.79
2 7.1
28
2 0 44.87
.599
12 5 28.4
69.80
189.2
28
4 82 8.73
.801
23 11 14.6
33.33
2 8.3
29
2 5 23.65
.683
12 83 10.1
68.87
139.9
29
4 3711.83
.831
23 24 12.8
31.63^ 2 9.4 II
30
810 3.22
.688
13 0 33.8
68.10
140.6
80
4 42 19.61
.858
23 36 32.5
30.01
210.6
31
2 14 43.61
11.701
13 27 88.7
07.80
141.8
31
4 4728.51
13.888
28 48 13.3
26.38
211.8
32
2 19 24.85
11.786^.13 54 24.3
66.49
142.1
32
4 5288.00 13.906
+23 59 14.9
36.74 2 13.1 II
1
II
DBjofMootlu 7th.
19th.
ITlh.
5.4
99d.
arih.
39d.
Db7 of Month, 6th.
11
I
th.
N
^.8
16th.
M
5.9
n
6.1
96lh.
1
31«t.
u
Semidlametcr 6.3
n
5.3
5.5
II
6.6
M
5.6
Se
II
midiameter 5.7
6.2
N
6.8
Hor.PanUUx 5.5
5.5
5.6
5.7
5.7
5.8
He
^r.ParalUx 5.9
i
J.O
6.1
6.3
6.4
6.5
196
VENUS, 1866.
BIAY.
===^=-
JUNE.
1
GREENWICH MEAN TIME.
i
i
"8
GREENWICH MEAN TIME.
XT
AaceodioQ.
Var.of
for 1
hour.
Apparent
Decliuaikm.
Var.of
Dec.
fori
hour.
Meridtan
ft-sa«o.
Aflcoiwloa.
Yar.of
R.A.
for 1
hour.
OecfiDiakm.
Vvjof
Dec.
fori
hour.
Meridian
Pa-nse 1
Noon.
Noon.
Noon.
Noon.
Noon,
Noon.
Noon.
Noon.
u
34.60
1
h. m. t.
4 47 28.61
13.683
o 1 u
+23 48 18.3
38.38
h. m.
2 11.8
1
h. m. s.
7 27 18.55
8.
13.458
O 1 N
+24 9 49.8
h. m
2 49.2
2
4 52 88.00
.906
285914.9
36.74
2 13.1
2
73211.78
.899
28 59 40.8
36.17
2 50.2 ;
8
4 57 48.08
.998
24 9 86.7
35.07
2 14.8
8
737 8.69
.849
23 48 58.4
37.72
2 51.2
4
5 2 58.56
.948
241918.2
33.89
2 15.5
4
7 42 4.20
.388
2887 29.6
29.25
2 52.2
6
5 8 9.55
.997
24 28 19.6
31.71
2 16.7
5
74658.29
.398
282529.2
80.76
2 58.1
6
5 13 20.95
19.982
24 86 40.5
30.01
2 18.0
6
75150.91
13.161
2812 58.1
82.24
2 54.1
7
5 18 32.69
19.995
2444 20.3
18.39
2 19.2
7
75642.04
.098
22 5941.7
83.69
2 55.0
8
5 28 44.72
1S.006
24 51 18.8
16.57
2 20.5
8
8 131.62
13.088
22 4557.7
15.12
2 55.9
9
528 57.00
.015
24 57 35.8
14.84
2 21.8
9
8 619.64
11.968
22 8185.6
86.58
2 56.8
10
584 9.45
.031
25 811.2
18.10
2 28.0
10
811 6.07
.901
221649.9
87.92
2 57.6
11
589 22i)2
lt.034
25 8 4.7
11.85
2 24.8
11
816 50.87
11.881
22 116.4
89.28
2 58.4
12
5 44 84.64
.035
25 12 16.2
9.59
2 25.6
12
8 2088.97
.761
21 45 16.6
40.61
2 59.2 ,
13
5 49 47.24
.03S
25 15 45.4
7.88
2 26.8
18
8 26 15.38
.690
2128 46.2
41.92
2 59.9:
14
554 59.76
.019
25 18 32.4
6.07
2 28.1
14
8 29 55.09
.618
211144.8
48.20
8 0.6 1
.5
6 012.14
.011
2520 87.1
4.81
2 29.3
15
88488.06
.545
205418.2
44.44
8 1.3
1
16
6 5 24.80
IS.OOO
252159.6
3.55
2 30.6
16
8 89 9.24
11.469
208612.0
45.65
3 2.0
,17
6 10 86.18
19.987
25 22 39.8
0.70
2 81.8
17
8 48 48.61
.894
201742.0
46.88
8 2.6 1
18
6 15 47.71
.973
25 22 87.7
0.97
2 88.1
18
8 4816.17
.818
19 58 48.9
47.99
8 8.2 !i
II
19
620 58.82
.954
25 2158.4
3.78
2 84.3
19
8 52 46.89
.341
198918.4
49.19
8 8.8 i
i20
626 9.45
•9il
25 20 26.9
4.48
2 85.6
20
8 57 16.76
.164
191926.1
50.92
8 4.8 1
21
631 19.50
19.903
25 18 18.5
6.33
2 86.8
21
9 142.76
11.085
1859 7.9
51.98
3 4.8
22
636 28.91
.877
25 15 28.5
7.95
2 38.0
22
9 6 7.86
11.006
1888 24.4
52.82
3 5.3'
23
6 4187.61
.640
251156.8
9.67
2 89.2
23
91081.05
10.936
181716.5
58.88
8 5.7 j
24
6 46 45.55
.813
25 7 48.8
11.89
2 40.4
24
914 52.82
.846
17 56 44.9
M.80
8 6.1^
25
6 5152.65
.777
25 2 49.7
it.io
2 41.6
25
91911.66
.765
178850.4
55.i8
8 6.5 1
i
,26
6 56 58.84
13.798
24 5714.9
14.79
2 42.7
26
928 29.06
10.685
171188.8
56.14
3 6.8
27
7 2 4.07
•690
24 50 59.5
16.47
2 48.9
27
927 44.53
.604
16 48 55.8 57.01
8 7.1
28
7 7 8.26
.653
24 44 4.0
18.14
2 45.0
28
98158.04
.523
16 25 57.2|57.8€
8 7.4
,29
712 11.85
.605
24 86 28.9
19.78
2 46.1
29
986 9.60
.441
16 2 88.6 58.68
8 7.7,;
j80
7 17 18.28
.566
24 28 14.5
91.41
2 47.1
80
94019.20
.859
15 89 0.6 59.48
8 7.9,
1
31
722 14.08
13.505
2419 21.8
38.01
2 48.2
81
944 26.84
10.378
15 15 4.0 60.98
8 8.1,
32
7 27 18.55 13.4M
424 9 49.8 94.601 2 49.2,
82
9 48 32.53 10.197
+14 5049.5 60.96
9
8.2 >
1
Dttr of Month, tih.
11
i
th.
S.6
16th
n
6.8
aiai.
11
7.0
Mih.
M
7.2
31«t.
•
7.4
IVofMoolh, M.
lOlh.
15th.
MKh 'asth.
aoih
SemidUunetor 6.5
8ei
nidiametw 7.7
8.0
8.2
H 1 «
8.6 8.9
•» 1
9.4,
Hor.ParmlUx 6.7
i
B.9
7.0
7.8
7.5
7.7
Ho
r.PmlluL 8.0
8.3
8.6
9.0 9.3
9.8 '
VENUS, 1855.
197
JULY.
GBEENWICU MEAH TIME.
Aauniiuii.
y(i9A.
04126,34
9 48:12.53
10 0 37,94
10 4 35.86
10 8 31.84
101 15 25.88
10 1<I 17,98
10 20 SJ5
10 23 56,38
10 2742,64
[QUI 26.05
10 35 9.30
10 38 49*67
10 42 28,07
10 46 4.47
10 49 38.86
10 53 11.!J2
10 56 41.4$
11 0 9*67
11 3 35.77
II 6^9.76
1110 21.50
1113 41,22
1116 58.64
1 1 20 I.'!*92
1 1 23 26.73
1126 37.33
U 29 45.55
1132 51,39
(Ur 1
IkMJt.
Nvan.
,197
0,B73
rtii
.631
.A 19
,303
.141
9.l}»«
.718
ApittTBSll
+ 15 15 4.0
14 SO 49,5
14 26 18.0
14 01 30.2
13 36 26,9
13 11 8.7
12 45 36.2
12 19 50.2
U 53 51,5
1 1 27 40.7
11 11^.3
10 34 45.1
10 8 2,0
9 41 9.7
9 14 8.9
9 47 0.5
8 19 45.1
7 52 23.5
7 24 66.5
6 57 24,6
e.03l 6 29 48,7
.jjisf 6 2 9.1
.4U 5 34 27.6
,3«4| 5 6 14.2
.a-ia! 4 38 59.9
T.9&a
.S93
T.89^
411 15.5
3 43 31.8
3 15 40.4
2 49 9.0
2 ^ 31.3
I 52 57.1
1135 54.79] l.fiBfl + 126 27.3
VftTUf
(nt I
bi.>ur.
.Vo*«-
00,-^3
a J. 6a
e:1.3i
d].9A
ii4.e7
fiA.aS
40. 9»
d7,3«
aT.9&
tie, 31
eie.73
as. 91
99,01
(19.LI»
mas
fltf.33
J59.12
Qa,99
&a.e3
h. In.
3 8.1
3 8,2
3 B.3
3 8.4
3 8,5
3 8,5
3 8,4
3 8.4
3 8.3
3 8,2
3 8,1
3 7.9
3 7 7
3 7.5
3 7.2
a 6.9
B 6,5
3 6.2
3 5.8
3 5.3
3 4.8
3 4 3
3 3.8
3 3.2
3 2.6
3 1.9
3 1.2
3 0.6
2 59.7
2 58.9
2 58.1
2 57.2
Dtftf of Month, 4lK
ScmidiAtneter 7.7
Har.PanlEAX 10.1
9ih.
lo.a
10.6
14lK 10th »4ih
lO.T 11.3
11.2 11.S
12.0
12.5
9D1H
12,8
13.4
AUGUST,
GREENWICH MEAN TIME.
AelCCiidiai;.
Noon,
h. m. a.
II 35 51.79
1 1 38 55.70
11 4154.09
11 44 49,90
11 47 43.07
11 6033.53
11 53 21.22
11 56 6.01
J 1 58 47.93
12 1 26.78
12 4 2.50
12 6 35.00
12 9 4.20
12 1129,98
12 13 52.20
12 1610.70
12 18 25.33
I2 20S5.94
12 22 42.36
12 24 44.43
12 26 42.00
12 2!? 34.87
12 30 22.94
12 32 5.97
12 33 43.78
12 35 1BJ9
12 36 12.99
12 38 3.9T
12 3918.93
12 4027.67
12 4129.97
a. A
futr I
hiMir.
No»H
ApiHinmt
D^lllMlllH).
^Q9n
7,D4a
.IBS
t}.14«
A,&09
,3^a
fi.l77
4.aofl
.6()3
.39&
4*1 e4
3.9«3
3.733
.493
il.991
.730
9,438
JVi»n.
1 25 27,3
0 58 3.7
0 30 44.1
0 r3 32,2
0 23 32.4
0 SO 28.9
1 17 16.6
1 43 54.5
2 10 21.6
2 36 37,0
3 2 40.0
3 28 29.6
3 64 4.7
4 19 21.2
4 44 27
5 9 12.4
5 33 38.7
5 57 44.7
6 21 29.2
6 44 50.8
7 7 48.3
7 30 20.2
7 52 25.0
8 14 1.2
8 35 7.3Uj*0!>
Vvof
Tori
ftfl.40
07.^4
07.a:i
flT.n
6o.Te
60.13
»,30
63,44
S7.6&
&*.7fi
&4,ftl
A3.3R
2 57,2
2 56,3
2 55.3
8 55 41.5
9 15 42.1
9 35 7.3
9 53 55.0
10 12 3.4
10 29 30.6 4a.73
13 42 25.64 a.na -10 46 14.4 lo.&e
M.79
41. 7T
4e.n
44 49
2 54.3
2 63,2
2 52.1
2 51,0
2 49.8
2 43.5
2 47.2
2 45.9
2 44,5
2 43.0
241.5
2 39.9
2 38,3
2 36,6
2 34.8
2 33.0
2 3ia
2 29.1
2 27.0
2 24.9
2 22,7
9 20.4
2 18.0
2 15,5
2 12.9
2 10.2
2 7,4
2 4,5
2 1.5
Paj of Momh, 3- 1.
HQr.Pi*raUa3tI4.2
8ih,
14.6
15.2
13 Lh. IBth
II \ tt
15.6! 16.8
16.3 17.5
Ji3<i,
18.2
19.0
asik
19.7
20.S
198
VENUS, 1856.
SEPTEMBER.
OCTOBER.
1
GREENWICH MEAN TIME.
1
GREENWICH MEAN TIBiE.
AaceoMoo.
Vtr. of
BA.
for 1
hour.
Apparent
Declinatkm.
Var.of
Dec.
fori
hour.
Meridian
P*«.«e.
Aaceo^kHL
Var.of
RA.
for 1
hour.
Noon.
vJcSSSoa,
Var.of.
Dec. 1
fori .Meridwm
hoar. 1 Pua^e.
Noon.
Soon
a.
3.178
Noon.
Noon.
Noon.
Noon.
AW
M
49.09
1
1
h. in. «.
12 42 25.64
0 1 II
-1046 14.4
40.68
h. ni.
2 1.5
1
h. m. a.
1218 52.66
a.
6.998
0 1 M
-1026 28.9
h. m. ,
28 29.4
2
12 48 14.49
1.889
11 2 18.0
88.96
158.4
2
121146.86
.308
10 6 25.6
51.01
23 23.5
8
12 48 56.82
.603
1117 24.1
86.03
155.1
8
12 942.68
6.084
9 4540.1
53.61
28 17.5
4
12 44 80.95
1.989
118145.8
34.79
151.8
4
12 742.84
4.998
9 24 20.4
58.87
28 11.7
5
12 44 68.19
0.977
114514.1
83.66
148.8
5
12 646.14
.741
9 284.2
54.83
28 5.9 '
t
6
12 45 17.84
0.667
1157 48.0
80.31
144.7
6
12 864.79
4.634
84088.8
65.45
28 0.3
7
12 45 29.72
+.S80
12 9 24.2
37.76
141.0
7
12 2 8.99
.378
8 18 12.4
65.76
22 64.7
8
12 45 88.69
-.009
1220 0.0
36.17
187.1
8
12 029.47
4.006
76662.8
55.75
22 49.8
9
12 45 29.61
.840
1229 82.6
39U8
183.1
9
1158 66.75
8.713
78886.8
56.48
22 48.9
10
12 4517.86
0.669
1287 59.2
19.67
129.0
10
116781.29
.400
71181.5
64.83
22 88.7
11
12 44 56.84
1.038
124517.0
16.76
121.7
11
116618.52
8.073
6 49 44.9
58.98
22 88.6
^^
12 44 27.99
.876
12 5128.8
18.73
120.8
12
1155 8.81
9.780
628 22.9
53.78
22 28.7
!l3
12 43 50.81
1.739
125615.4
10.67
116.7
18
1154 2.46
.877
6 781.8
61.40
22 28.9
:i4
12 48 5.83
9.067
1269 50.7
7.89
1 11.1
14
1168 9.78
3.014
64715.5
49.81
22 19.8;
15
1
12 42 11.57
.409
18 2 6.6
8.06
1 6.3
15
1162 26.78
1.645
62740.4
484)8
22 14.7
1
,16
12 41 9.69 2.745
13 8 0.6
-0.60
1 1.8
16
116160.76
1.373
6 850.4
464n
22 10.4
17
12 89 59.84! 8.073
18 2 80.8
+8.06
0 66.2
17
115124.78
0.897
4 5049.3
48.06
22 6.2
jl8
12 88 42.23
.889
18 0 88.9
6.68
0 51.0
18
1161 7.70
•693
438 40.4
41.79
22 2.1
19
1287 17.15
.698
12 57 9.6
10.86
0 46.7
19
116069.67
—.147
417 26.7
89.87
2168.2
20
1285 44.94
8.981
12 5216.6
14.07
0 40.2
20
1151 0.68
^^337
4 210.8
86.99
2164.4
21
12 84 6.06
4.949
12 45 54.2
17.79
0 84.6
21
11 61 10.47
0.606
8 4764.7
84.89
2150.8
22
12 82 21.08
.498
1288 2.4
91.50
0 29.0
22
11 51 29.15
0.968
88489.8 81.83-2147.8
|28
12 80 80.42; .711
1228 42.1
36.16
0 23.8
28
115156.47
1.815
8 2227.41 39.19'21 48.9
I24
12 28 84.89 4.901
1217 64.9
38.78
017.4
24
115282.28
1.664
8 11 18.4(96.55121 40.7;
25
1226 85.16
6.061
12 6 48.0
89.30
011.5
25
11 68 16.37
9.006
8 118.2
38.88 21 87.7
26
1224 81.94
6.189
1152 9.8
86.63
\iZl\
26
1164 8.68
9.840
2 5212.0
31.31 21 84.7
27
1222 26.06
.384
118717.8
86.68
28 68.6
27
1166 8.72
.664
2 4415.0
18.55 21 81.9
28
12 20 18.28: .841
112112.8
41.64
28 47.5
28
116616.45
9.978
28721.7
15.91 21 29.2
29
1218 9.54I .867
11 8 69.1
44.88
28 41.5
29
116781.67
8.983
28181.8
18.80'2126.6'
80
1216 0.681 .til
1045 42.2
46.87
28 86.4
80
1158 64.11
.679
216 48.1
10.73
2124.2
81
1218 52.66 S.M8
1026 28.9
49.09
28 29.4
81
12 028.63
8.866
222 66.2
8.90
21 21.9
32
1211 46.86 A.908
-10 6 25.6
31.01 28 28.5
82
12 169.69
4.149-2 20 9.9' 6.70"2119.6j|
1
li
Dbr of Month. Sd.
ih.
N
1.2
imh
n
25.0
ITth
m
26.7
29.8
97ih.
m
29.8
Iter of Month, M
Tih.
19th
ITih SM 'ttUi
1
N
SemidUincter21.4
SemidiaiBeter 29.6
it
29.2
26.5 24.8
2aL0
Hor. ParalUx 22.2
1
%
1.1
26.0
27
.8
29
.4
30.6
He
r. PanaUx 80.8
80.4
29.2
27.6 25.8
28.91
^1
VENUS, 1866.
199
NOVEMBER.
DECEMBER.
1
i
GREENWICH MEAN TIME.
4
s
i
GREENWICH MEAN TIME.
""is^r
Var.of
R.A.
for 1
hour.
DecUualioii.
Var.of
Dec
fori
hour.
Noon.
M
5 70
Meridian
Bu-a^e
Aac«u4ioo.
Var.or
R.A.
li>r 1
hour.
Noon.
Apparent
DeciinatioiL
Var.of
Dec.
fori
hour.
Noon
u
41.49
Meridian
Pawa^e.
Noon.
Noon
Noon.
Noon.
Noon.
,
12 159.68
a.
4.143
O 1 u
- 220 9.9
h. m.
21 19.6
1
h. m. a.
18 25 50.21
8.968
O 1 u
- 6 4787.6
h. m.
20 47.0
2
12 3 42.35
.408
2 18 22.8
8.35
21 17.5
2
18 2926.58
9.061
7 422.1
43.19
20 46.7
3
12 5 81.25
.66S
a 17 88.6
+0.87
21 16.5
3
13 88 5.13
.151
7 2122.7
43.84
20 46.4
4
12 7 26.16
4.906
217 40.9
-1.45
21 13.5
4
13 86 45.82
.388
7 8888.4
43.44
20 46.2
5
12 9 26.84
5.144
2 18 43.5
8.78
21 11.7
5
134028.69
.835
756 8.0
48.99
20 46.0
6
121183.07
ft.STl
2 2089.9
5.98
21 9.9
6
184418.41
9.409
81850.8
44.50
20 45.8
7
12 13 44.63
.as6
2 28 28.3
8.07
21 8.3
7
13 48 0.28
.493
8 3144.2
44.96
20 45.7
8
1216 1.32
.797
2 27 7.2
10.15
21 6.7
8
18 5149.01
.578
8 49 48.5
45.36
20 45.6
9
12 18 22.92
6.990
28185.8
13.16
21 5.2
9
13 5689.71
.6)3
9 8 1.8
45.73
20 45.6
10
1220 49.21
6.190
286 60.8
14.10
21 8.7
10
13 5982.81
.780
92628.0
46.03
20 45.4
11
1223 20.02
6.674
2 42 62.1
15.98
21 2.4
11
14 826.78
9.807
9 44 51.0
46.38
20 45.4
12
12 25 55.18
.561
2 49 38.0
17.81
21 1.1
12
14 7 28.06
.888
10 8 24.6
46.50
20 45.5
13
12 28 84.51
.791
2 57 6.9
19.55
20 59.8
13
141121.18
9*958
1022 8.0
46.68
20 45.5
14
12 31 17.86
6.885
8 517.3
31.35
20 58.7
14
141621.07
10*083
104045.1
46.81
20 45.6
16
1234 5.07
7.048
314 7.5
33.80
20 57.6
15
1419 22.72
.105
105929.9
46.90
20 45.7
16
1236 55.99
7.196
8 28 86.2
34.47
20 56.6
16
14 2826.11
10.177
11 18 16.3
46.95
20 45.8
17
1289 60.49
.S4S
8 38 42.0
35.99
20 55.6
17
14 27 81.24
.349
1187 3.3
46.95
20 46.0
18
12 42 48.46
.465
8 44 23.7
37.45
20 54.7
18
14 8188.09
.831
115549.8
46.91
20 46.2
19
12 45 49.77
.633
3 55 89.8
28.87
20 58.8
19
14 85 46.66
.893
121484.9
46.83
20 46.4
20
12 48 54.30
.754
4 7 29.1
80.31
20 58.0
20
14 89 56.93
.464
128817.6
46.70
20 46.7
21
12 52 1.94
7.861
4 19 50.0
81.50
20 52.2
21
14 44 8.93
10.585
12 5156.7
46.53
20 47.0
22
12 55 12.60
8.005
4 82 41.8
83.74
20 51.5
22
14 48 22.62
.605
131081.4
46.88
20 47.8
28
12 58 26.17
.134
4 46 1.7
83.93
20 50.8
23
14 62 37.98
.675
1829 0.7
46.09
20 47.6
24
13 142.56
.340
4 59 49.9
85.06
20 50.2
24
14 56 56.01
.744
1847 23.7
45.80
20 48.0
25
18 5 1.69
.853
514 4.5
86.18
20 49.6
26
15 113.70
.818
14 589.3
45.48
20 48.4
26
13 8 23.49
8.468
5 28 44.8
87.16
20 49.1
26
15 584.04
10.881
14 23 46.6
45.11
20 48.8
27
131147.90
.570
5 48 48.1
88.14
20 48.6
27
15 956.01
10.948
14 4144.5
44.69
20 49.2
28
13 15 14.86
.674
5 59 14.6
89.05
20 48.1
28
151419.59
11.016
14 59 82.0
44.34
20 49.7
29
13 18 44.28
.775
615 2.6
89.93
20 47.7
29
151844.77
.088
1617 8.2
43.75
20 50.2
30
13 22 16.09
.878
6 81 10.6
40.78
20 47.3
30
152811.56
.149
1584 81.9
48.31
20 50.7
31
13 25 50.21
8.968
6 47 87.6
41.49
20 47.0
31
152789.90
11.319
15 5142.1
43.63
20 51.3
32
13 29 26.58
9.061
- 7 4 22.1
43.19
20 46.7
32
1582 9.75
11.975
-16 8 87.9
43.00
20 51.9
1
II
DajofMooth, lau
«ih.
11th.
16Ul
91it.
96lh.
Da7ofMonUi,lA.
6th. 1
Llth.
16th.
91tt.
a6th
aiat.
Semidiameter 21.2
1
$1
9.6
11
18.2
16.8
15.7
14.7
Semidiam.18.7
N
12.9
12.2
11.5
11.0
II
10.5
10.0
Hor. Parallax 22.1
1
2
0.4
18.9
17.5
16.4
15.3
Hor.Par. 14.8
13.4
12.7
12.0
11.4
10.9
10.4
200
MARS, 1855.
JANUARY.
FEBRUARY.
1
1
•b
&
GREENWICH MEAN TIME.
1
GREENWICH MEAN TIME.
XT
Aacension.
Var.of
R.A.
fori
hour.
DedJnatloQ.
Var.of
Dec.
fori
hour.
Noon
Meridian
Paaaage.
Aacenaioo.
Var.of
B.A.
fori
hour.
DeSnniulon.
Var.of
Dec.
fori
hour
Meridian
PMaa<e.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
h. m. a.
20 20 28.19
a.
8.176
-2042 50.2
37.08
h. m
188.2
1
h. m. a.
215829.08
a.
7.618
O 1 «
-18 29 29.0
a
41.43
m. h.
1 14.0
2
20 23 44.24
.160
208158.2
37.68
187.5
2
22 181.65
.699
1812 51.8
41.74
1 18.1
8
20 26 69.90
.148
202041.9
38.37
186.8
8
22 4 88.77
.661
12 56 6.0
43.06
1 12.2
4
20 90 15.18
.137
20 916.6
38.8ft
186.1
4
22 785.47
.663
12 3918.8
43.36
1 11.3;
5
20 38 80.06
• 111
19 57 87.5
30.43
185.4
5
221086.78
.646
12 22 18.4
43.66
1 10.4
6
20 86 44.54
8.004
19 45 44.8
30.08
184.7
6
221887.67
7.639
12 5 6.6
49.94
1 9.5
7
20 89 58.62
.077
19 88 88.9
80.68
184.0
7
221688.16
.613
1147 52.9
43.33
1 8.5
8
20 48 12.30
.061
19 2119.8
81.07
188.3
8
221988.25
.496
118082.6
43.49
1 7.6
9
20 46 25.57
•044
19 8 47.8
81.60
182.5
9
22 22 87.94
.479
1118 5.8
43.76
1 6.6
10
20 49 88.41
.037
18 56 8.1
83.13
181.8
10
22 25 87.25
.463
1055 82.8
44.00
1 5.6
11
20 52 50.84
8.000
18 48 6.1
83.6ft
181.1
11
22 28 86.19
7.447
1087 58.9
44.96
1 4.7
12
20 56 2.88
7.001
18 29 56.9
33.16
180.3
12
22 3184.73
.433
1020 9.1
44.49
1 8.7
13
20 59 14.89
.07S
1816 85.6
8S.6ft
129.6
18
22 84 82.90
.417
10 218.7
44.73
1 2.7"
14
21 2 25.52
.9M
18 8 2.7
84.13
128.9
14
22 87 30.71
U03
9 44 28.0
44.94
1 1.7
15
21 5 86.21
.036
17 49 18.1
34.60
128.1
15
22 4028.16
.387
9 8622.1
46.16
1 0.7
j.«
21 8 46.46
7.917
1785 22.2
8ft.07
127.8
16
22 48 25.23
7.873
9 816.8
46.30
0 59.7
17
21 11 56.27
.609
17 2115.2
36.ftS
126.6
17
22 46 21.95
.367
8 50 5.8
46.63
0 58.7
18
21 15 5.74
.881
17 6 57.8
3ft.»8
125.8
18
22 4918.82
.843
8 81 50.9
46.70
057.7'
;i»
21 18 14.56
.863
16 52 28.5
36.43
125.0
19
22 5214.84
.337
8 1881.7
46.86
0 56.7
20
21 21 28.01
.8M
1687 49.2
36.86
124.2
20
22 55 10.08
.318
7 55 06.5
46.03
0 56.7
21
2124 81.03
7.824
16 22 59.6
37.30
123.4
21
22 58 5.41
7.390
78641.4
46.17
1
0 54.7
,22
21 27 88.58
.80ft
16 7 59.9 1 37.71
122.6
22
28 1 0.46
.386
7 18 10.7
46.33
0 58.7
23
21 80 45.68
.786
15 52 50.2|38.13
121.8
23
23 8 55.18
.378
6 5986.6
46.46
0 52.6
[24
21 88 52.80
.767
15 87 80.7
38.63
120.9
24
28 649.58
.360
64059.8
46.60
0 51.6
125
1
21 86 58.51
.748
1522 1.7
38.90
120.1
25
28 9 48.68
.348
6 2219.0
46.73
0 50.6
1
26
2140 4.24
7.730
15 6 28.4
39.39
119.8
26
2812 87.48
7.936
6 8 85.9
46.86
0 49.5
27
2148 9.52
.710
14 5085.9
39.67
118.4
27
2815 80.99
.934
6 44 50.8
46.06
0 48.5 I
,28
21 46 14.84
.601
14 84 89.4
40.04
117.6
28
2818 24.22
.913
526 2.4
47.06
0 47.4
♦29
21 49 18.70
.673
1418 84.2
40.40
116.7
29
28 2117.18
.901
5 712.8
47.14
0 46.4 ;
30
21 52 22.62
.6ft4
14 2 20.6
40.76
115.8
80
28 24 9.88
.191
4 48 208
47.99
0 45.4,
1
31
21 55 26.08
7.636
18 45 58.8
41.09
114.9
31
2827 2.83
7.181
4 2926.5
47.99
0 44.3
.32
21 58 29.08' 7.618
-13 29 29.0 41.43
114.0
32
282954.53 7.l7l!- 4 1081.]' 47.3a' 0 48.2
D.y
orMooth.lii.
•ih
, 2.0
llth
ieih.|91n.|M
4h
81a.
OarortbaMooth, Slh.
10th.
ISth
a
1.9
«Olh
a
1.9
M<lL •
jSei
niduun. 2.0
2.0
a 1 K 1
2.0, 1.9, ]
.9
1.9
a
SemidUuneter 1.9
M
1.9
a
1.9,
.Uor. Par. 8.8 8.8|
3.8
3.8: 3.8 I
1.7
8.7
Uor.PaitdUx 8.7
8.7
3.7 3.7
>•< ,
MARS, 1855.
201
MABCH.
APRIL.
2
GBEENWICH MEAN TIME.
s
GREENWICH MEAN TIME.
Aacaosion.
V«r.<
R.A.
fori
hour
iVbofi
)f|
DedKatUn.
Var.of
Dec
fori
hour.
Meridian
Pa-i*a
AaceiKion.
Var.of
R.A.
fori
hour.
Apparent
Declination.
Var.of
Dec.
fori
hour.
Meridian
Pa»a«e.
Noon.
i. Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
h. ra. «.
23 21 17.18
9.
7.S0
O 1 N
1-57 12.8
47.14
h. m.
0 46.4
1
b. ro. 0.
04912.19
7.032
O 1 N
+ 48781.2
N
45.94
h. m.
0 12.1
2
23 24 9.88
.19
1 44820.8
47.93
0 45.4
2
0 52 0.92
.033
4 55 51.7
45.78
0 11.0
3
23 27 2.83
.18
1 429 26.5
47.39
0 44.8
8
0 54 49.65
.083
514 8.2
45.61
0 9.9
4
23 29 64.58
.17
1 41081.1
47.85
0 48.2
4
0 57 38.39
.088
582 20.6
46.43
0 8.7
5
28 82 46.50
.16
1 8 5184.4
47.40
0 42.1
5
1 027.14
.083
55028.6
45.34
0 7.6
6
23 85 88.24
7.16
1 88286.4
47.44
0 41.0
6
1 815.92
7.034
6 8 82.0
45.05
0 6.5
7
28 88 29.77
.14
3 818 37.8
47.48
0 89.9
7
1 6 4.73
.086
62680.8
44.86
0 5.8
8
23 41 21.09
.18
4 2 54 87.8
47.53
0 38.9
8
1 8 58.58
.038
644 25.0
44.67
0 4.2
9
23 44 12.22
.19
6 28586.6
47.55
0 87.8
9
11142.50
.040
7 214.7
44.47
0 8.0
10
23 47 8.15
.11
8 21685.4
47.57
0 86.7
10
114 81.49
.048
7 19 59.5
44.37
0 1.9
11
23 49 58.92
7.11
1 15738.9
47.58
0 85.6
11
1 17 20.54
7.046
7 8739.2
44.07
( 0 OOJI
12
23 52 44.52
.10
4 188 82.2
47.58
0 84.5
12
120 9.66
.049
7551.S.9
48.86
23 58.5
18
28 55 84.98
.09
6 119 80.6
47.57
0 88.4
18
122 58.87
.053
812 48.4
48.64
23 57.4
14
23 58 25.27
.09
a 1 029.3
47.55
0 32.2
14
12548.16
.056
8 80 7.7
48.41
23 56.3
15
0 1 15.42
.06
6 04128.4
47.53
0 81.1
15
128 37.53
.059
8 47 26.5
48.17
28 55.2
16
0 4 5.42
7.06
0 022 28.2
47.50
0 80.0
16
1 81 26.98
7.068
9 4 89.4
43.93
28 54.1
17
0 6 55.29
.07
f - 0 828.9
47.47
0 28.9
17
1 84 16.51
.066
9 2146.1
43.67
23 52.9
18
0 9 45.02
.07
O-*- 015 29.4
47.48
0 27.8
18
187 6.12
.070
9 88 46.5
43.40
23 51.8
19
0 12 34.63
.06
6 084 26.5
47.87
0 26.6
19
189 55.83
.078
9 55 40.4
43.13
28 60.7
20
0 15 24.14
•M
1 058 22.1
47.80
0 25.5
20
142 45.64
.077
1012 27.6
41.88
23 49.6
21
0 18 18.51
7.oa
7 1 12 16.1
47.33
0 24.4
21
145 85.54
7.083
1029 8.1
41.54
23 48.5
22
0 21 2.84
,0S
4 181 8.4
47.14
0 28.8
22
148 25.55
.086
10 45 41.5
41.30
23 47.4
28
0 23 52.06
.Ofi
0 149 58.7
47.05
6 22.2
28
1 51 15.69
.001
11 2 7.8
40.95
23 46.3
24
0 26 41.18
.04
7 2 8 46.8
46.96
0 21.0
24
154 5.94
.006
1118 26.9
40.64
23 45.2
25
0 29 80.24
.04
4 28782.4
46.86
019.9
25
15656.32
.101
118438.5
40.83
23 44.1
26
0 32 19.24
7.04
1 2 4615.4
46.75
018.8
*26
159 46.83
7.106
115042.6
40.03
23 43.0
27
0 85 8.19
.08
9 8 4 55.7
46.63
0 17.7
27
2 237.49
.113
12 639.2
89.70
28 41.9
28
0 87 57.07
.08
7 8 23 88.2
46.51
0 16.6
28
2 528.29
.119
12 22 28.0
89.88
23 40.8
29
0 40 45.89
.08
6 8 42 7.8
46.38
0 15.4
29
2 819.24
.136
12 88 9.0
39.05
23 39.7
30
0 43 84.68
.08
4 4 039.1
46.34
014.3
30
2 11 10.85
.133
12 58 42.1
88.71
28 88.6
31
0 46 23.45
7.08
13 419 7.0
46.09
0 18.2
31
214 1.63
7.140
18 9 7.1
88.88
23 87.5
32
0 49 12.19
7.08
3 + 48731.2
45.94
0 12.1
32
21658.08
7.147
+18 24 24.0
88.04
23 86.4
II
Dftj of Month, %±
Tih.
19th
ITih.
1^%d.
arth.
Day of Month, IsL
6th.
11th.
16th.
91ft.
96ih.
u
n
1.9
N
1.9
u
1.9
It
1.9
1.8
Sei
N
midiameter 1.8
1.8
N
1.8
1.8
M
1.8
1.8
Hor. Parallax 8.6
8.6
3.6
8.6
8.6
8.6
Ho
r.ParaUax 3.6
1
S.6
8.5
8.5
3.5
8.5
86
202
MARS, IS&ft.
MAY.
JUNE. 1
as
GREENWICH MEAN TIME.
1
GREENWICH MEAN TIME.
Asceuaioo.
Var.of
R.A.
Ibr 1
hour.
Noon
DJcSSSLn.
Var.of
Dec.
fori
hour.
Noon.
Meriuuui
PMge.
AKOMion.
Var.of
E.A.
for 1
hour.
DecliMtion.
Var.of
Doc
for 1
hour.
Noon.
N
96.40
Morkfin
Noon.
Noon.
Aboil.
Noon.
Noon.
1
h. m 8.
214 1.68
9.
7.140
O 1 «
+13 9 7.1
N
88.88
h. ra.
28 87.5
1
h. m. «.
8 48 69.37
a.
7.800
O 1 N
+19 49 6.2
h. m.
28 5.4
2
2 16 68.08
.147
182424.0
88.04
28 86.4
2
846 66.26
.879
19 59 9.0
94.09
28 4.4
8
2 19 44.70
.1«4
18 8932.4
87.00
28 86.4
3
849 63.30
.870
20 9 1.1
94.48
23 8.4
4
222 86.49
.109
18 64 82.3
87.84
28 34.3
4
3 52 50.48
.806
2018 41.6
98.04
23 2.4
5
226 28.46
.100
14 9 288
80.00
28 88.2
6
865 47.79
.801
202810.8
98.40
28 1.4
6
228 20.60
7.170
14 24 6.6
80.09
28 32.1
6
868 45.24
7.800
208727.1
99.97
28 0.4
7
281 12.91
.100
14 88 40.3
80.96
23 81.0
7
4 142.82
.409
204682.0
99.47
22 59.4
8
284 6.40
.100
14 68 6.8
86.87
28 30.0
8
4 440.64
•407
2055 24.9
91.07
22 58.4
9
286 68.07
.108
16 7 21.1
36.48
23 28.9
9
4 7 88.89
UI8
21 4 6.8
91.40
22 57.4
10
2 89 60.91
.906
16 2127.7
86.08
28 27.9
10
41086.86
U18
211284.8
90.00
22 56.6
11
2 42 48.98
7.9lf
16 86 26.1
84.00
28 26.8
11
41884.46
7.499
212051.8
90.46
22 55.5
12
2 46 87.16
.990
16 4913.1
84.30
28 26.8
12
416 82.66
.497
2128 55.6
10.94
22 54.6
18
248 80.66
.990
16 2 61.6
U.OC
23 24.7
13
41980.98
.ai
2186 47.5
19.49
22 58.6
14
2 6124.16
.900
1616 20.2
83.60
28 28.7
14
4 22 29.40
.486
21 44 27.2
10.00
22 52.6
16
264 17.92
.944
162989.0
88.00
28 22.7
16
42527.91
.440
21 51 54.4
loao
22 51.7
16
2 67 11.88
7.909
16 4248.0
39.07
23 21.6
16
4 28 26.60
7.448
215909.8
17.07
22 50.7
17
8 0 6.04
.900
16 66 46.8
89.94
28 20.6
17
4 8125.16
.440
22 611.5
17.36
22 49.8
18
8 8 0.89
.907
17 8 86.4
81.81
23 19.6
18
4 84 23.89
.440
2218 1.2
10.89
22 48.8!
19
8 6 64.91
.974
17 2118.6
31.87
28 18.6
19
48722.66
.460
221988.2
10.90
22 47.8 1
20
8 8 49.62
.909
17 88 41.2
80.08
28 17.6
20
44021.48
•401
2216 2.7
16.70
22 46.9
21
81144.61
7.900
17 4668.2
80.60
28 16.6
21
4 4820.85
7.408
228214.4
16.98
22 46.9
22
8 14 89.67
.907
17 68 4.6
30.00
28 15.4
22
44619.26
.464
228818.6
14.70
22 45.0
28
817 84.80
.804
1810 0.2
90.81
28 14.4
23
4 4918.18
.466
22 48 698
14.17
22 44.0
24
820 80.20
.111
18 2146.2
90.10
28 18.4
24
4 6217.10
.460
224988.4
18.04
22 48.0
25
828 26.77
.118
18 8819.2
98.70
28 12.4
26
4 5516.06
.400
22 54 64.2
18.11
22 42.1
26
8 M 21.60
7.094
18 44 42.4
98.96
28 11.4
26
4 5815.00
7.466
28 0 2.8
19.60
22 41.1
27
82917.40
.089
18 66 64.4
97.79 28 10.4
27
6 1U.98
.466
28 4 57.5 19.06
22 40.2
28
882U.47
.889
19 6 65.3
tr7.39 28 9.4
28
6 412.84
.404
28 940.0 11.&9I2289.2 1
29
886 9.70
.840
1917 44.8
90.84 28 8.4
29
6 711.72
.408
2814 9.8
10.00 22 88.2,
lao
888 6.09
.858
192828.1
90.38 28 7.4
80
61010 66
.ai
281826.8
10.40 2287.8
'si
841 2.64
7.860
1988 49.9
96.88 28 6.4
81
618 9.86
7.440
281280.9
0.08 2186.8
;S2
8 43 69.87 7.SM
+19 49 6.2
96.40 28 6.4
32
616 8.10
7.440
+28 2622.8
0.30 2285.4
' 1
!l
tey or Month. lA
Otk. 1
1 1th.
16th.
91al
Mth
airt.
DtjofMonth, Mt
lOlh.
15th.
«
1.8
10th.
M
1.8
15Ut
1.8
Mth.
1.8
1'
SemidiMn. 1.8
u
1.8
1.8
M
1.^
N
1.8
w
1.8
1.8
Sa
«
N
1.8
1 Hot. Par. 8^
J!
3.6
8.6
8.
8.6
•,»
8.5
Ho
r.PoralUx 8.6
1.6
8.6
8.5
8.5
8.5
MARS, 18d<».
eo3
JULY.
AUGUST.
1
GREENWICH BfSAN TIME.
1
GBEEKWICH MEAN TIME.
Aacaoaioa.
Var.of
R.A.
fori
hour.
A|XMtfOIlt
DecSnaUon.
Vir.of
Dec.
fori
hour.
Meridian
Aaceasioo.
Var.of
R.A.
fori
hour.
DeSiuuioQ.
Var.of
Dec.
for 1
hour.
Meridian
IWi«e.
Noon.
ffoon.
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
1
h. m. a.
5 13 9.86
a.
7.44»
O 1 It
•f-282280.9
a
0.98
h. m.
22 36.3
1
h. m. a.
64424.00
a.
7.906
O 1 N
+28 4481.4
u
6.09
h. m.
22 5.8
2
5 16 8.10
.446
232622.8
0.80
22 35.4
2
64716.90
.103
23 4159.7
6.96
22 4.2
8
5 19 6.78
.444
28 80 0.9
8.86
22 84.5
8
6 50 9.87
.180
288916.6
7.08
22 8.1
4
5 22 5.89
.441
238826.8
8.81
22 33.5
4
658 1.50
.106
238622.8
7.60
22 2.1
6
5 25 8.92
.437
238689.8
7.77
22 82.6
5
6 5568.20
.169
283816.7
7.97
22 1.0
6
5 28 2.89
7.4S4
288940.1
7.94
22 81.6
6
6 5844.76
7.187
2829 59.8
8.44
21 69.9
7
5 81 0.78
.410
23 42 27.7
0.71
22 30.7
7
7 185.66
.198
282681.7
8.00
2158.8
8
5 88 59.06
.490
2845 2.5
6.18
22 29.7
8
7 426.62
.108
2322 52.6
9.80
21 57.7
I 9
5 86 57.26
•439
28 4724.6
6.66
22 28.7
9
7 717.02
.099
2819 2.6
9.61
21 56.6
10
5 89 55.85
.417
83 4988.8
6.19
22 27.7
10
710 7.08
.076
2315 1.7
10.90
21 55.5
11
5 42 58.83
7.412
285180.4
4.69
22 26.7
11
712 56.67
7.069
281050.0
10.71
21 54.4
12
5 45 61.20
.400
23 5814.8
4.06
22 25.7
12
715 45.92
.048
28 627.7
11.15
21 58.3
18
5 48 48.92
.401
23 54 45.5
8.63
22 24.7
18
718 84.76
.097
28 154.8
11.59
21 52.2
14
5 51 46.47
.890
28 56 4.1
8.01
22 28.7
14
7 2123.21
7.009
22 6711.4
19.03
21 51.0
15
5 54 43.86
.886
2857 8.9
9.48
22 22.7
15
72411.28
6.001
22 52 177
19.46
21 49.9
16
5 57 41.08
7.880
2358 8.2
1.96
22 21.7
16
726 58.82
6.974
22 47 18.9
19.88
21 48.7
17
6 0 88.09
.879
23 58 44.0
1.44
22 20.7
17
729 45.98
.966
22 42 0.0
13.30
21 47.5
18
6 3 34.90
.868
2359 12.4
0.99
22 19.7
18
7 8232.69
.038
22 36 36.1
13.71
21 46.3
19
6 6 81.50
.804
23 59 28.8
0.40
22 18.7
19
7 8518.98
.910
22 81 2.2
14.13
21 45.1
20
6 9 27.87
.844
2359 31.8
0.19
22 17.7
20
7 88 4.83
.901
22 23 18.4
14.59
21 43.9
21
6 12 24.02
7.884
23 59 23.1
0.03
22 16.7
21
74050.22
0.889
2219 24.8
14.99
21 42.7
22
6 15 19.92
.838
23 59 2.1
1.14
22 15.7
22
74335.17
.863
2218 21.8
16.39
21 41.5
23
6 18 15.56
.818
23 58 28.8
1.06
22 14.7
23
74619.66
.844
22 7 9.4
19.71
21 40.3
24
6 21 10.95
.808
2357 43.8
9.16
22 18.7
24
7 49 8.70
.896
22 047.6
16.10
21 89.1
25
6 24 6.07
.909
2366 45.8
9.66
22 12.6
25
75147.28
.800
21 64 16.6
16.48
21 87.9
26
6 27 0.98
7.980
28 5586.4
8.10
22 11.6
26
7 5430.39
0.787
2147 36.4
16.66
21 86.6
27
6 29 55.61
.909
23 54 15.1
8.06
22 10.5
27
7 5718.05
.707
2140 47.3
17.93
21 85.4
28
6 82 49.88
.957
28 52 41.9
4.16
22 9.5
28
759 55.28
.746
21 83 49.4
17.60
21 34.2
29
6 85 48.84
.946
23 5066.8
4.64
22 8.5
29
8 236.96
.790
2126 42.7
17.97
21 82.9
80
6 88 87.56
.989
2849 0.0
6.18
22 7.4
80
8 618.22
.700
211927.2
18.33
21 31.7
81
6 41 80.99
7.910
23 4661.5
6.61
22 6.4
81
8 759.01
0.000
2112 8.0
18.60
21 30.4
82
6 44 24.00
7.900
+284481.4
0.00
22 5.3
82
81039.83
6.070
+21 4 80.4
19.04
2129.1
II
Dij of Mouth, 5th. ]
LOth.
15th
90th.
Mih.
80ih.
Doj of Month, 4th.
9th.
14th.
19th.
»4th.
99th.
N
2.0
N
Semidiameler 1^
1.8
M
1.8
.-.
1*
1.8
N
1.9
Se
midiameter 1.9
u
1.9
1.9
a
1.9
1.9
Hor. FtoUlax 8.5
8.5
3.6
8.6
8.6
8.6
He
»r.ParalUx 3.6
B.7
3.7
3.7
3.7
3.8
204
MARS, 1855.
SEPTEMBER.
OCTOBER.
1
a
GREENWICH MEAN TIME.
1
1
GREENWICH MEAN TIME.
Apparent
Kighi
AjBceivtioa.
Var.or
R.A.
for 1
hour.
Noon
Apparent
DflclinatioQ.
Var.of
Dec.
fori
hour.
Noon.
Meridian
Pa«a«e.
Aeceoaioo.
Var.of
RJL
for 1
hour.
Decfioatioii.
Var.of
Dec
for 1
hour.
Noon.
Meridian
Xoon.
Noon.
JVbiHt.
Noon.
Noon,
1
h. m. •.
8 10 39.83
•.•70
O 1 »
+21 4 80.4
N
19.04
h. m.
2129.1
1
h. m. a.
9 27 0.44
a.
6.063
O 1 N
+16 22 48.6
a
37.13
h. m.
2047.0
2
8 IS 19.18
.651
20 66 49.4
19.89
2127.8
2
9 2926.45
.083
16 11 66.2
37.83
2046.6
8
8 16 68.66
.681
20 49 0.1
19.73
2126.6
8
9 8149.97
6.013
16 0 57.8
37.61
2044.0
4
8 18 37.47
.619
20 41 2.7
30.07
21 26.3
4
9 8414.01
6.901
15 49 55.1
37.69
2042.4
5
8 21 16.93
.693
208267.2
30.40
21 24.0
6
98687.56
.971
1688 48.6
37.66
20 40.9 i
1
6
8 28 68.92
6.678
2024 48.8
30.73
21 22.7
6
989 0.61
6.960
16 2788.0
38.08
2089.8,
7
8 26 81.42
.668
201622.7
31.04
21 21.4
7
9 4128.16
.980
1516 28.8
38.19
2087.7
8
8 29 8.48
.68^
20 7 64.0
31.86
2120.1
8
9 43 46.23
.909
15 6 4.8
36.86
2086.1
9
8 8144.94
.613
19 6917.7
31.67
21 18.7
9
9 46 6.82
.889
14 68 42.5
38.60
2084.6
10
884 20.96
A91
19 6084.1
31.97
21 17.4
10
9 48 27.91
.868
14 42 16.7
38.66
2082.9
11
8 86 66.47
6.470
19 4148.8
33.36
21 16.0
11
95048.50
5.848
14 8047.6
38.79
2081.8
12
889 81.46
.449
19 82 46.6
33.66
21 14.6
12
9 58 8.59
.837
141915.1
38.93
2029.7
13
842 6.94
.437
19 2840.7
33.84
21 18.8
13
966 28.18
.807
14 7 89.4
39.06
2028.0
14
844 89.91
.406
1914 29.1
38.13
21 11.9
14
9 57 47.29
.786
18 66 0.8
39.17
2026.4
15
847 18.87
.884
19 610.8
38.40
21 10.6
16
10 0 6.92
.766
18 4419.2
39.39
2024.7
16
849 46.88
6.868
18 66 46.1
38.67
21 9.1
16
10 224.06
6.746
18 82 84.8
39.40
2028.1
117
86218.78
.841
18 4614.8
38.94
21 7.7
17
10 4 41.71
.736
18 2047.9
39.61
2021.6
18
8 64 60.71
.830
188687.2
34.30
21 6.8
18
10 6 68.86
.706
18 8 68.4
39.63
2019.8
19
8 67 22.16
.399
18 26 68.4
34.46
21 4.9
19
10 915.62
.686
12 67 6.6
39.73
2018.2
20
869 63.07
.379
1817 3.6
34.71
21 8.4
20
101181.70
.664
12 4612.4
39.81
20 16.6 i
1
21
9 2 28.50
6.367
18 7 7.6
34.96
21 2.0
21
1018 47.40
6.644
12 8816.0
29.90
2014.8
22
9 4 68.42
.386
17 67 6.9
36.30
21 0.5
22
1016 2.62
.634
12 2117.5
39.96
2018.1
23
9 7 22.84
.316
17 46 68.5
36.44
20 69.1
23
10 IS 17.86
.606
12 9171
80.06
2011.4
24
9 9 61.76
.196
17 8645.6
36.67
20 57.6
24
102081.61
.666
11 67 14.7
80.14
20 9.7
26
912 20.18
.174
1726 27.1
36.80
20 66.1
26
1022 46.41
.666
11 46 10.6
80.31
20 8.0
26
914 48.12
6.164
171608.2
36.11
20 64.6
26
1024 68.76
6.647
1188 4.7
80.38
20 6.81
27
9 17 16.67
.188
17 684.1
36.83
20 63.1
27
102711.66
.638
112057.2
80.86
20 4.6
28
9 19 42.51
.118
16 66 0.1
36.68
20 51.6
28
1029 24.09
.609
11 8 48.1
80.41
20 2.9
29
922 8.98
.093
16 44 21.1
36.78
20 50.1
29
108136.06
U90
1056 87.7
80.46
20 1.2 1
80
924 84.96
.073
16 8887.2
36.98
20 48.5
80
1088 47.66
.470
1044 26.2
80.61
1969.4:
31
927 0.44
6.063
16 2248.6
37.18
20 47.0
31
1085 68.61
6.461
108218.6
80.66
1
19 67.7 1
32
929 26.46
64)83
+16 11 66.2
37.83
20 45.6
82
1088 9.20
6.483
+1020 0.0
80.69
19 65.91
1
D«r of Month, M
m
h.
2.0
18ih.
It
2.0
N
2.0
M
2.1
Mth.
a
2.1
Day of Month, Sd
•th.
19Cb.
ttth.
u
2.2
Md
M
2.8
m
2.8
«
SemidUuneter 2.0
Sei
•
nidiAroeter 2.1
\
1.2
a
t.2
Hor.ParilUx 8.8
1
B.9
8.9
8.9
4.0
4.1
Ho
r.Pwmllax 4.1
4
1.2
4.8
4.8
4.4
4.6
MARS, 1855.
205
NOVEMBEB.
DECEMBER.
o
1
1
OBEENWICH KEAN TIME.
< GREENWICH MEAN TIME.
Aacciuk>n.
Var.of
R.A.
for 1
hour.
DacUnaUon.
Var.of
Dec
fori
hour.
Noon.
a
80.50
Maridlao
Paaaage.
Aacedaioo.
Var.of
R.A.
fori
hour.
Apparent
DecfinatioiL
Varofj
Dec.
fori
hour.
Noon.
M
39.37
Meridian
Paaaage.
Noon.
Mwm.
Nwm,
Noon,
Noon.
Noon.
1
h. m. a.
1038 9.20
6.483
O 1 N
+10 20 0.0
h. m.
19 55.9
1
Yl m. a.
118940.91
a.
4.813
O 1 ft
+ 4 16 84.1
h. m.
18 59.0
2
104019.32
.413
10 7 45.7
80.62
19 54.1
2
114186.15
.790
4 4 58.1
39.15 18 56.9
S
1042 28.96
.893
9 55 80.7
80.64
19 52.8
8
114880.83
.766
8 58 15.0
39.03 18 54.9
4
1044 38.11
.873
9 48 15.4
80.66
19 50.5
4
1145 24.95
.748
8 41 40.0
98.89 18 52.8
5
1046 46.80
.853
9 80 59.7
80.67
19 48.7
5
11 47 18.51
.719
8 80 8.8
98.76
18 50.8
6
1048 55.02
6.883
9 18 48.8
80.67
19 46.9
6
114911.49
4.696
8 18 40.2
98.60
18 48.7
7
1051 2.76
.813
9 6 27.8
80.67
19 45.1
7
1151 3.89
.671
8 7 15.7
98.45
18 46.7
8
1033 10.02
.393
8 54 11.9
80.67
19 48.2
8
1152 55.69
.646
2 55 54.9
96.39
18 44.6
9
10 55 16.79
.371
8 41 56.0
80.66
19 41.4
9
1154 46.88
.630
2 44 87.9
38.18
18 42.5
10
1057 28.07
.361
8 29 40.8
80.65
19 89.5
10
116687.47
.595
2 83 24.9
37.96
18 40.4
11
1059 28.86
5.381
8 17 25.0
80.68
19 87.6
11
115827.44
4.570
2 22 16.0
27.79
18 38.3
12
11 184.16
.311
8 5 10.1
80.61
19 35.8
12
12 016.79
.543
211 11.2
37.61
18 86.2
18
11 3 88.97
.191
7 52 55.8
80.58
19 83.9
13
12 2 5.49
.515
2 010.6
37.43
18 34.0
14
11 5 43.29
.170
7 40 42.1
30.65
19 82.0
14
12 853.54
.487
1 49 14.5
37.94
1881.9
15
11 7 47.12
.150
7 28 29.8
80.51
19 80.1
15
12 640.92
.460
1 88 22.9
37.06
18 29.7
16
11 9 50.48
5.130
7 16 17.5
80.47
19 28.2
16
12 727.68
4.483
1 27 85.9
36.87
18 27.5
17
11 11 58.34
.109
7 4 6.9
80.43
19 26.8
17
12 913.67
.403
1 16 58.6
36.67
18 25.3
18
1113 55.70
.089
6 51 57.4
80.87
19 24.4
18
121059.04
.876
1 6 16.1
36.47
18 23.1
19
1115 57.57
.008
6 89 49.2
30.81
19 22.5
19
12 1243.72
.846
0 55 48.5
36.36
18 20.9
20
1117 58.96
.048
6 27 42.6
80.35
19 20.6
20
12 1427.69
.817
0 45 16.1
36.04
18 18.7
21
1119 59.86
5.037
6 15 87.6
80.19
19 18.7
21
12 1610.95
4.388
0 84 58.8
35.83
18 16.4
22
1122 0.26
5.000
6 8 84.1
30.13
19 16.7
22
12 17 58.49
.367
0 24 86.9
36.60
18 14.2
23
1124 0.14
4.985
5 51 82.4
30.05
19 14.8
23
12 1985.80
.336
0 14 25.4
36.37
1811.9
24
1125 59.52
.964
5 89 82.6
39.97
19 12.9
24
12 21 16.37
.196
+ 04 19.4
36.14
18 9.7
25
1127 58.40
.948
5 27 84.6
39.88
19 10.9
25
12 2256.69
.164
- 0 5 41.0
34.90
18 7.4
26
1129 56.78
4*933
5 15 88.8
39.19
19 8.9
26
12 2486.25
4.18»
--1^16 85.7
34.60
18 5.1
27
118154.64
.900
6 8 45.1
39.70
19 6.9
27
12 26 15.04
.101
0 26 24.4
34.41
18 2.9
28
1188 51.99
.878
4 51 58.6
39.60
19 6.0
28
12 2758.04
.068
0 85 7.0
34.16
18 0.6
29
1185 48.82
.857
4 40 4.6
39.50
19 8.0
29
12 2980.24
.084
0 44 48.3
38.89
17 68.3
80
1187 45.18
.885
4 2818.0
30.89
19 1.0
80
12 81 6.64
4.000
0 54 18.5
38.63
17 56.0
31
1189 40.91
4.818
4 16 84.1
99.37
18 59.0
81
12 8242.28
8.966
1 8 87.2
38.86
17 53.7
32
114186.15
4.790
+ 44 58.1
99.15
18 56.9
32
12 34 16.99
8.983
- 1 12 54.2
38.07
17 51.4
1
1
Day of Month, M.
Tlh.
lUth.
ITIh.
9)id.
97th.
D«r of Month, M.
7th. ]
L9th.
ITth.
%%A.
arih.
3»d.
N
Semidiameter 2.4
N
2.4
It
2.5
11
2.6
2.6
II
2.7
Semidiam. 2-8
a
2.9
2.9
II
8.0
n
8.2
N
8.3
a
3.4
Hor. Parallax 4.6
4.7
4.8
4.9
6.1
5.2
Hor. Par. 6.4
5.5
6.7
5.9
6.1
6.3
6.5
206
JUPITER, 18»5.
1 JANUAKY.
FEBRUARY.
1
'1
GREENWICH MRAM TBSE.
1
1
<ffRBBNWICH BCEAN TIME. |
Var.ofi
Var.of
Var.of
Var.of
1
Asceodion.
RA.
for 1
hour.
DeSISSSo^
Dec.
fori
hoar.
Noon,
1
Mertdiaii
PMia«e
•2
^ffisr
R.A.
for 1
hour.
Noon.
DecnMAioa.
Dec
fori
ho«r.
Noon.
m
Merfdim ,
(
Nuon.
Noon.
NOOH.
Noon,
Noon.
^~~
h. m. «.
•.
O 1 U
h. m.
h. m. a.
8.
O 1 h
h. m ,
1 1
202188.84
3.tM
-20 120.0
7.76
189.1
1
205181.84
3.615
-1818 41.6
9.46
0 6.9 1
1 ^
2022 85.19
.871
1958 18.0
.83
186.1
2
206229.78
.418
18 9 64.2
.49
0 4.0
1 8
20 28 82.16
.876
1955 4.5
.89
188.1
8
205827.67
.410
18 6 5.9
.58
M Ml^
1 ^
2024 29.25
.881
195154.2
7.96
180.1
4
206425.50
.406
18 216.6
.57
28 55.2
5
2025 26.45
•98d
1948 42.5
8.03
127.2
5
206628.27
.406
1768 26.6
.60
28 62.2
6
2026 28.76
9.8f0
1945 29.2
8.06
124.2
6
206620.97
3.408
17 54 85.6
9.64
28 49.2
7
2027 21.17
.894
1942 14.4
.14
121.2
7
206718.60
.899
176048.6
.68
28 46.2
8
2028 18.68
.896
1988 58.1
.30
1 18.2
8
205816.16
.895
17 4651.0
.71
28 48.2
9
2029 16.28
.401
1985 40.2
.37
116.8
9
206918.62
.893
1742 57.6
.74
28 40.2
10
1
208013.96
.4M
1982 20.8
.84
1 12.8
10
21 011.00
.889
1789 8.6
.77
28 87.2
11
2081 11.72
S.408
1929 0.0
8.40
1 9.8
11
21 1 8.29
3.886
1786 8.7
9.79
28 84.2
12
2082 9.65
.411
1925 87.7
.46
1 6.8
12
21 2 6.48
.880
178118.2
.83
28 81.2
13
2088 7.45
.414
1922 14.0
.93
1 8.4
18
21 8 2.56
.876
17 2717.0
.85
28 28.2
14
2084 5.41
.410
19 18 48.9
.67
1 0.4
14
21 869.58
.873
172820.2
.88
28 26.8
15
2085 8.42
.418
19 15 22.4
.68
0 57.4
15
21 466.89
.806
171922.9
.90
28 22.8
16
2086 1.48
3.430
191154.5
8.69
0 54.4
16
21 6 68.18
3.803
171526.1
9.93
28 19.8
17
2086 59.59
.42^
19 8 25.8
.74
0 51.5
17
21 649.74
.866
171126.7
.94
28 16.8
!'^
2087 57.78
.438
19 4 54.7
.80
0 48.5
18
21 746.21
.860
17 7 27.8
.96
28 18.3
19
2088 55.89
.434
19 122.9
.65
0 46.6
19
21 842.55
.845
17 828.5
.98
28 10.8
20
2089 54.07
.434
1857 49.8
.90
0 42.6
20
21 988.75
.888
166928.8
9.99
28 7.8
21
20 40 52.27
3.435
18 54 16.4
8.96
0 89.7
21
211084.79
3.883
166628.8
10.01
28 4.8
22
204150.49
.436
18 50 89.7
9.01
0 86.7
22
211180.67
.836
165128.4
.03
28 1.8
28
20 42 48.71
.436
1847 2.9
.06
0 88.7
28
211226.40
.818
16 47 27.7
.03
22 68.8
24
20 48 46.92
.436
18 48 24.9
.10
0 80.7
24
211821.96
.813
164826.8
4M
22 66.8
25
2044 45.12
•435
1889 45.8
.16
0 27.8
25
21 14 17.85
.806
168926.7
•06
22 62.8
2«
2045 48.81
3.434
1886 5.5
9.30
0 24.8
26
211512.67
3.990
168624.4
10.06
22 49.8
27
2046 41.48
.434
1882 24.1
.38
0 21.8
27
2116 7.60
.388
168128.0
.06
22 46.8
28
2047 89.62
.433
1828 41.7
.39
0 18.8
28
2117 2.45
.990
162721.4
.07
22 48.8
29
2048 87.73
.493
1824 58.2
.88
0 15.9
29
211767.12
.974
162819.8
.07
22 40.2
80
2049 85.81
.430
1821 18.6
.87
0 12.9
80
2118 61.60
.966
161918.1
.07
22 87.2
81
2050 88.85
3.417
1817 28.1
9.41
0 9.9
31
211946.88
9.987
161616.4
10.07
22 84.2
82
20 51 81.84 «.416
-1818 41.6 9.46
0 6.9
82
212089.96
9.949
-161114.7
16.67
22 81.1
1
II
' Vmf of the Month,
lie
11th.
mwi
Slat.
D«r or the Month.
Ul
11th.
9Ul
aiai.
PoUu- SemMuuneter
15.5
15.4
15.4
15.4
16.4
16.4
15.6
8
16.6
1 H<Miiontal PmralUx
1.1
1.4
1.4
1.4
Horb il I'mlkx
1.4
1.4
1.4
1.4
1
JUPITER, 1856.
»aT
MARCH.
APRIL.
s
QRERNWICa MBiuN TIME.
1
OBEENWICH MEAN TIME.
Appareot
Kght
Aaoeaaioa.
Var.of
R.A
fori
hour.
DediMt^
Var.of
Dec.
fori
hour.
Meridian
PMige.
Jkacewuoa.
Var.of
JLk.
fori
hour.
DtocUMtioo.
Var.of
Dec.
for 1
hour.
Meridian
Passage.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1
h. m. a.
21 17 57.12
a.
a. 974
0 1 II
-162819.8
10.07
h. m
22 40.2
1
h. m. a.
214412.91
1.937
O 1 N
-14 2111.3
H
9.36
h. m.
21 4.3
2
21 18 51.60
.366
16 19 18.1
.07
2237.2
2
214469.00
.913
14 17 27.4
.30
21 1.1
3
21 19 46.88
.047
16 16 16.4
.07
22 34.2
8
2146 44.75
.899
141344.7
.36
20 57.9
4
21 20 39.96
.349
16 11 14.7
.07
22 31.1
4
214680.16
.884
14 10 8.8
.19
20 54.8
5
21 21 33.84
.341
16 718.0
.07
2228.1
5
214716.19
.870
14 6 23.8
.14
20 51.6
6
21 22 27.61
3.333
16 811.4
10.07
22 26.0
6
214759.86
1.864
14 2 44.6
0.08
20 48.4
7
21 23 20.97
.333
16 59 9.9
.06
22 22.0
7
2148 44.17
.838
13 69 7.3
9.03
20 46.2
8
21 24 14.21
.314
16 66 8.6
.06
22 18.9
8
214928.11
.833
18 6681.4
8.96
20 42.0
9
21 26 7.23
.304
16 61 7.5
.04
2216.9
9
215011.66
.807
13 6157.0
.90
20 38.8
10
2126 0.02
.194
1647 6.7
.03
2212.8
10
216064.88
.791
18 48 24.2
.88
20 36.6
n
21 26 62.57
3.186
1643 6.2
10.01
22 9.8
11
21 61 87.61
1.774
13 44 68.0
8.76
20 32.8
12
21 27 44.89
.175
16 89 6.9
10.00
22 6.7
12
21 62 19.99
.747
134123.5
.69
20 29.1
13
21 28 36.97
.166
16 36 6.9
9.99
22 8.6
13
2168 1.96
.740
13 3765.7
.63
20 26.8
14
21 29 28.80
.164
1631 6.4
.97
22 0.6
14
216848.52
.738
1384 29.6
•66
20 22.6
15
21 30 20.37
.146
16 27 7.8
.96
21 57.4
15
2164 24.67
.706
1831 6.2
A8
20 19.8
16
21 81 11.68
.3.133
16 28 8.7
9.93
21 64.8
16
2166 6.40
1.688
132742.6
8.40
20 16.1
17
2182 2.72
.131
16 19 10.6
.91
21 51.2
17
216646.70
.670
18 24 22.0
.33
20 12.8
18
21 82 53.50
.110
16 15 13.0
.89
2148.1
18
216626.66
.663
1321 3.3
.34
20 9.6
19
21 33 44.00
.098
161116.1
.86
2146.0
19
2157 4.98
.633
1817 46.6
.16
20 6.2
20
21 84 34.22
.086
16 719.8
.83
21 41.9
20
2167 43.96
.616
1314 81.9
8.06
20 2.9
21
21 36 24.16
3.074
16 824.2
9.80
2188.8
21
216822.47
1.697
13 11 19.4
7.97
19 69.6
22
21 86 13.78
.063
14 69 29.8
.77
2186.7
22
2169 0.64
.677
18 8 9.1
.88
19 66.3
28
2187 3.11
.049
14 65 86.2
.74
2182.6
23
216938.16
.657
13 6 0.8
.80
19 63.0
24
21 37 62.14
.086
14 6142.0
.70
21 29.6
24
22 016.29
,637
18 164.8
.70
19 49.7
26
21 38 40.86
.033
14 47 49.7
.66
21 26.4
25
22 061.96
«18
1268 61.0
7.60
19 46.4
26
21 89 29.27
3.010
14 48 68.2
9.63
2128.2
26
^ 128.16
1.498
12 66 49.6
.60
19 43.1
27
21 40 17.37
1.997
14 40 7.7
.68
2120.1
27
22 2 8.88
.478
1262 50.6
.40
19 89.7
28
2141 5.16
.984
14 8618.8
.68
21 17.0
28
22 289.11
.468
12 4963.8
.30
19 86.4
29
21 41 62.60
.970
14 82 29.9
.49
21 18.8
29
22 818.86
.437
12 4669.5
.90
19 83.0
30
21 42 89.71
.066
14 28 42.6
.46
21 10.6
80
22 848.10
.416
12 44 7.6
.10
19 29.6
31
21 48 26.48
1.941
14 2466.4
9.40
21 7.6
31
22 421.86
1.396
12 4118.3
7.00
19 26.2
32
21 44 12.91
1.937
-14 2111.3
9.86
21 4.8
32
22 466.08
1.374
-123831.6
6.89
19 22.8
1
II
Day of the Month,
lal.
llih.
91at.
31st.
Oar of the Month, lal.
llih.
91et.
31sL
Polar Semidian
aeter
16.6
16.9
»
16.1
It
16.8
Polar Semidiameter 16.8
16.7
17.2
II
17.7
Horizontal Pan
Ulaz
1.4
1.6
1.6
1.6
Horizontal Parallax 1.6
1.6
1.6
1.6
208
JUPITER, 1855.
MAY.
JUNE.
s
GREENWICH MEAN TIME.
1
GREENWICH MEAN TIME.
Var.of
Var.of
Var.of
Varnf
i
Ascension.
R.A.
for 1
hour.
Apptreot
DecUnatioa.
Dee.
fori
hour.
Xoon.
Meridian
AiacoMioa.
KA.
lor 1
hour.
dSSL.
Doc.
for 1
hour.
Xoon
H
Meridian
n».a«e.
Xoon.
Xoon
Noon.
Noon,
Noon.
Noon.
h. m a.
a.
O 1 «
N
h m.
h. m. s.
a.
O 1 N
h. m.
1
22 4 21.85
1.S96
-12 4118.8
7.00
19 26.2
1
2217 7.50
0.696
-1138 44.5
9.81
17 86.8
2
22 4 55.08
.874
12 38 81.6
6.89
19 22.8
2
221722.19
.598
1187 39.0
.65
1783.1
3
22 5 27.81
.853
12 85 47.4
.79
19 19.1
8
221786.20
.569
1136 87.8
.49
17294
4
22 6 0.02
.839
12 33 5.9
.68
19 16.0
4
2217 49.53
.541
1185 89.5
.33
17 25.7
5
22 6 3171
.300
12 30270
.56
19 12.6
5
2218 2.17
.519
1134 45.7
9.16
17 22.0
6
22 7 2.87
1.987
12 2750.9
6.44
19 9.2
6
221814.12
0.483
1183 55.8
1.99
17 18.2
7
22 7 33.50
.365
12 25 17.6
.33
19 5.8
7
2218 25 87
.454
1188 9 9
.63
17 14.5
8
22 8 3.58
.945
12 22 47.1
.91
19 2.4
8
221835.91
.494
1132 28.0
.66
17 10.7
9
22 8 83.12
.990
12 2019.4
6.09
18 58.9
9
2218 45.74
.894
118150.1
.49
17 16.9
10
22 9 2.11
.196
121754.7
5.97
18 55.5
10
2218 54.86
.365
118116.8
.39
17 8.1
11
22 f9 30.53
1.179
121588.0
5.84
18 52.0
11
2219 8.27
0.335
1180 46.6
1.15
16 59.3 1
112
22 9 58.38
.148
12 1814.8
.71
18 48.5
12
22 19 10.95
.305
1180 21.0
0.98
16 55.5 !
13
22 10 25.65
.195
121058.7
.58
18 45.0
13
22 19 17.91
.975
11 29 59.5
.80
16 51.7
i>^
22 10 52.35
.100
12 8 46.8
.45
18 41.6
14
2219 24.14
.945
1129 42.2
.68
16 47.9 j
16
1
2211 18.46
.075
12 687.0
.39
18 88.0
15
2219 29.65
.914
112929.0
.40
16 44.1
16
221148.97
l.OftO
12 481.0
5.18
18 34.5
16
221984.42
0.183
1129 20.0
0.98
1
1640.2;
1 17
2212 8.89
.096
12 2 28.2
5.04
18 81.0
17
221938.46
.153
112915.8
+.10
16 36.3
|18
2212 88.21
I.OOl
12 028.7
4.90
18 27.5
18
2219 41.77
.199
112914.8
-.07
1682.4 1
19
22 12 56.92
0.075
115882.6
.76
18 24.0
19
2219 44.84
.091
11 29 18.5
.94
16 28.5 <
20
22 18 20.01
.049
115689.9
.69
18 20.4
20
2219 46.17
.061
1129 26.8
.41
16 24.6
21
22 18 42.47
0.998
115450.6
4.48
18 16.8
21
221947.27
+.031
112988.8
0.59
16 20.7
22
2214 4.31
.897
1158 4.7
.34
18 18.2
22
2219 47.64
.000
1129 54.6
.77
16 16.7
23
22 14 26.53
.871
115122.8
.19
18 9.6
23
221947.27
-.031
1180151
0.94
16 12.8
24
2214 46.12
.847
1149 43.6
4.04
18 6.0
24
2219 46.17
.061
118089.7
1.11
16 8.8
25
2215 6.07
.818
1148 8.4
3.89
18 2.4
25
2219 44.83
.091
1181 8.4
.98
16 4.8
26
22 15 25.38
0.799
1146 86.8
8.74
17 58.8
26
221941.76
0.199
118141.8
1.45
16 0.8
27
22 15 44.04
.764
1145 8.9
.59
17 55.2
27
221988.46
.153
118218.3
.69 15 56.8'
28
2216 2.05
.737
1148 44.6
.43
17 51.5
28
221984.43
.183
1182 59.4
•so! 16 52.8;
29
22 16 19.41
.710
114224.0
.98
17 47.8
29
2219 29.67
.913
1188 44.6
1.97 15 48.8 1
80
2216 86.11
•684
1141 7.1
3.19
17 44.2
80
221924.19
.sa
1184 88.9
9.14
15 44.7
.31
2216 52.14
0.660
1189 58.9
9.97
17 40.5
81
221917.98
0.973
1185 27.2
9.30
15 40.7
32
2217 7.50
0.696
-1188 4^1.5
9.81 17 86.8
32
221911.05
0.304
-1186 24.6
9.47
15 86.7 1
i:
IHroTtheMnnth,
ul
llth.
91«t
9Ul
D^r of Uw Month.
lie
llth.
91«t
am
Polar Semidum
leter
17.7
18.2
18.8
19.8
Polmr Seniduuneter
19.4
20.1
20.7
2r.8
HorisonuU Pui
Olaz
1.6
1.7
1.7
1.8
Horiiontal ParalUx
1.8
1.8
1.9
2.0
JUPITER, 1855.
209
JULY.
AUGUST.
1
J
GREENWICH MEAN TIME.
1
&
GREENWICH MEAN TIME.
AKMiskm.
Var.of
R.A.
fori
hour.
DkUmUoq.
Var.of
Doc
fori
hour.
Noon.
II
3.80
Meridtoo
Panage.
Aeceiifiion.
Var.of
RA.
fori
hour.
Noon.
Apparent
Decftnatkn.
Var.of.
a^i Meridian
hour. P«-«3»-
Noon.
tt h. m.
6.45 18 30.0
Noon.
Noon
a.
0.S78
Noon.
Noon.
h. m. •.
22 1033.80
Noon.
1
h. m. 8.
22 19 17.98
O 1 N
-11 36 27.2
h. m.
16 40.7
1
9.
1.069
o 1 k
-12 32 43.4
2
2219 11.06
.804
1136 24.6
.47
16 86.7
2
22 10 7.93
.086
12 36 19.2
.53 1 13 26.7
3
2219 3.89
.884
1137 26.0
.64
16 82.6
3
22 941.64
.104
12 37 66.8
.60 13 21.3
4
22 18 66.01
.864
1138 31.4
.81
16 28.6
4
22 914.96
.119
12 40 36.1
.67*1316.9
5
22 18 46.91
.894
11 89 40.7
S.98
16 24.4
6
22 8 47.91
.184
12 43 17.0
.73
13 12.6
6
22 18 36.10
0.434
1140 64.1
8.14
16 20.3
6
22 8 20.49
1.150
12 46 69.4
6.79
18 8.1
7
22 18 26.67
.4ft4
1142 11.4
.30
16 16.2
7
22 7 62.72
.164
12 48 43.1
.85
13 3.7
8
22 18 14.33
.483
11 43 32.6
.46
15 12.1
8
22 724.64
.176
12 61 28.1
.90
12 69.3
9
2218 2.38
.913
1144 67.6
.63
16 8.0
9
22 666.26
.188
12 54 14.2
.94
12 64.9
10
22 17 49.78
.641
1146 26.3
.78
16 3.9
10
22 627.69
.300
12 57 1.8
6.98
12 50.6
11
22 17 36.40
0.M9
11 47 68.8
3.93
14 69.7
11
22 6 68.66
1.310
12 69 49.3
7.01
1246.1
12
22 17 22.38
.496
11 49 36.0
4.08
14 66 6
12
22 6 29.49
.319
18 2 38.0
.04
12 41.7
13
2217 7.69
.636
1161 14.9
.33
14 61.3
13
22 6 0.11
.338
18 5 27.3
.06
12 37.2
14
22 16 62.82
.6M
1162 68.4
.88
14 47.1
14
22 430.64
.386
13 8 17.1
.08
12 32.8
16
22 16 36.29
.683
1164 46.4
.53
14 42.9
16
22 4 0.79
.343
13 11 7.3
.10
12 28.4
16
221619.61
0.108
11 66 36.8
4.67
14 38.7
16
22 880.89
1.348
18 13 57.7
7.10
12 23.9
17
2216 2.29
.785
11 68 29.6
.81
14 84.6
17
22 8 0.87
.353
13 16 48.1
.09
1219.4
18
22 16 44.34
.761
12 0 26.8
4.95
14 80.3
18
22 2 80.76
.357
13 19 38.6
.06
12 14.9
19
22 16 26.77
.787
12 2 27.1
5.08
14 26.1
19
22 2 0.66
.359
13 22 28.6
.06
12 10.6
20
2216 6.69
.813
12 4 80.6
.30
14 21.8
20
22 130.80
.361
18 25 18.4
.04
12 6.1
21
22 14 46.82
0.836
12 6 37.0
5.83
14 17.6
21
22 1 0.01
1.363
18 28 7.8
7.01
12 1.7
22
22 14 26.47
.860
12 8 46.6
.45
14 13.3
22
22 029.71
.363
13 80 56.6
6.98
11 67.2
23
2214 6.66
.888
12 10 68.8
.57
14 9.0
23
2169 69.43
.361
18 88 44.7
.94
11 52.8
24
22 13 44.07
.906
12 13 18.9
.68
14 4.7
24
216929.17
.359
13 86 81.9
.90
1148.4
26
22 13 22.06
•938
12 16 31.7
.79
14 0.4
26
2168 68.96
.357
18 89 18.2
.86
1144.0
26
22 12 69.60
0.990
12 17 62.0
5.90
13 66.1
26
2168 28.84
1.358
18 42 08.6
6.81
1139.6
27
22 12 36.43
.973
12 20 14.9
6.00
13 61.8
27
2167 68.82
.348
13 44 47.6
.75
1136.1
28
22 12 12.86
0.993
12 22 40.2
.10
18 47.4
28
216728.92
.348
18 47 30.4
.69
1180.7
29
221148.78
1.018
12 26 7.8
.19
13 43.1
29
2166 59.16
.336
13 50 11.8
.68
11 26.3
30
221124.24
.034
12 27 37.6
.36
13 38.8
30
2166 29.66
.338
13 62 51.7
.58
1121.9
31
22 10 69.24
1.053
12 80 9.6
6.87
13 84.4
31
2166 0.15
1.331
13 66 30.1
6.58
11 17.5
82
2210 83.80
1.069
-12 32 43.4
6.45
13 80.0
32
2166 30.94
1.313
-13 68 6.8
6.49
11 13.1
I
II
Dft7 of the Month,
1st.
11th.
9l8t
31a.
Day of the Month,
liU
11th.
91it.
31st.
Polar Semidiameter
21.8
22.0
II
22.6
22.8
Polar Semidiai
netet '
22.8
23.1
n
23.2
N
28.2
Horizontal Parallax
2.0
2.1
2.1
2.1
Horizontal Par
nllRx
2.1
2.1
2.1
2.1
27
210
JUPITER, 1855.
SEPTEMBER.
OCTOBER. 1
GREENWICH MEAN TIME.
1
1
GREENWICH MEAN TIME.
A«c«nMon.
Var.of
RA.
for 1
hour.
Ik3SSlSa.
Var.of
Dec.
fori
hour.
Meridiaui
Passage.
Apparent
Right
Var.of
R.A.
for 1
hour.
Noon.
Apparent
DecUnatioa.
Var.of
Dec.
fori
hour.
1
Mendtan |
Pw«g«-'|
Noon,
UToon
Noon.
Noon,
Noon,
Noon.
Noon,
3.06
1.
1
h. m. •.
21 65 30.94
1.318
O 1 II
-1858 6.8
8.49
h. m.
11 18.1
1
h. m. a.
2144 9.00
0.
0.680
O 1 n
-14 55 87.6
h. m. 1
9 8.9
2
2155 1.95
.303
14 0 41.6
.41
11 8.7
2
2148 55.43
.660
14 56 39.6
.60
8 59.7 ,
8
21 54 88.21
.191
14 8 14.5
.83
11 4.3
8
2148 42.58
.630
14 57 87.7
.34
8 55.6
4
2154 4.74
.180
14 5 45.5
.34
10 59.9
4
2148 80.46
.490
14 58 82.0
.18
8 51.5
1 6
i'
21 58 86.56
.168
14 8 14.2
.16
10 55.5
6
21 48 19.08
.469
14 5922.8
8.01
8 47.4
1
' 6
2158 8.69
I.IM
14 10 40.8
6.06
10 51.1
6
2148 8.45
0.437
15 0 8.7
1.86
1
8 43.8
7
2152 41.16
.139
1418 5.1
6.96
10 46.7
7
2142 58.56
.396
15 051.1
.68
8 89.2'
' 8
21 52 18.99
.134
14 15 27.0
.86
10 42.8
8
2142 49.42
.366
15 129.4
.61
8 85.1
1 9
21 51 47.19
.108
14 17 46.4
.75
10 37.9
9
2142 41.05
.333
15 2 8.7
.34
8 81.0
10
21 51 20.78
.093
1420 8.2
.64
10 88.6
10
2142 88.45
.301
15 284.0
.18
8 26.9
In
21 50 54.78
1.074
1422 17.8
6.63
10 29.2
11
2142 26.63
0.368
15 8 0.2
1.01
8 22.9 1
Il2
21 50 29.28
.056
14 24 28.5
.41
10 24.8
12
2142 20.58
.936
15 822.8
0.68
8 18.9'
|l3
2158 4.14
.036
14 26 86.9
.28
10 20.5
13
214215.31
.303
15 8 40.8
.66
8 14.9'
14
21 49 89.58
1.016
14 28 42.3
.16
10 16.2
14
21 42 10.88
.170
15 8 54.8
.49
8 10.9
"
21 49 15.42
0.994
14 80 44.7
6.03
10 11.8
15
2142 7.15
.137
15 4 4.1
.33
8 6.9
1
.16
2148 51.82
0.973
14 82 43.9
4.90
10 7.5
16
2142 4.26
0.104
15 4 09.9
-.14
8 8.0 '
17
21 48 28.74
.960
1484 89.9
.76
10 3.2
17
2142 2.16
.071
15 411.6
-♦-.03
7 69.0'
18
2148 6.21
.937
14 86 82.6
.63
9 58.9
18
2142 0.85
.038
15 4 9.2
.19
7 55.1 1
19
21 47 44.24
.903
14 88 22.0
.43
9 54.6
19
2142 0.34
-.006
15 4 2.7
.36
7 61.2 I
;20
21 47 22.84
.879
14 40 8.0
.34
9 50.8
20
2142 0.61
+.038
16 852.1
.63
7 47.8 !
21
2147 2.08
0.864
14 41 50.5
4.19
9 46.0
21
2142 1.67
0.061
15 887.4
0.69
7 43.4
;22
2146 41.83
.838
14 48 29.5
4.06
9 41.8
22
2142 8.58
.094
15 818.7
0.66
7 89.5il
2S
21 46 22.25
.803
14 45 5.0
3.93
9 87.5
23
2142 6.17
.136
16 266.0
1.03
7 35.6 1
24
2146 8.29
.777
14 46 87.0
.76
9 83.8
24
2142 9.60
.169
16 229.8
.19
7 81.7!
25
21 45 44.97
.760
14 48 5.4
.60
9 29.1
25
21 42 18.81
.193
16 168.6
.86
7 27.8'!
26
81 45 27.29
0.733
14 49 80.1
3.46
9 24.9
26
21 42 18.80
0.934
16 128.9
1.63
7 28.9
27
21 45 10.27
.096
145061.1
.39 9 20.7
27
2142 24.57
.367
16 0 45.8
.69
7 20.1
28
21 44 58.92
.087
14 52 8.4
8.14 9 16.5
28
214231.12
.389
16 0 2.7
1.86
7 16.3
29
21 44 88.25
.638
14 58 22.0
3.99
9 12.8
29
2142 88.45
.330
14 6916.2
9.03 7 12.5 '
30
21 44 83.27
.009
14 54 81.7
.83
9 8 1
80
214246.54
.868
14 58 25.7
.19
7 9.7
31
2144 9.00
0.680
14 65 87.6
3.66 9 3.9
31
2142 55.40
0.386
14 6781.8
3.36
7 4.9'
82
2148 55.43 0.«ao
-14 56 89.6
8.60 8 59.7
82
2148 5.03
0.417
-14 56 82.9
3.63
7 1.2 1
1
1
1 Day of the Momh.
l«t.
11th.
91*t.
31«t.
Day of the Month,
lai.
11th.
%UL
Slat.'.
1
' Polmr SemidUuneter
28".2
^.0
22.5
2*1.9
Polar SemidUmeter
2r.9
a
21.8
20.6
20.0
Uoriiontal Paimllmx
2.1 1 2.1
2.1
2.0
HoriionUU ParmlUx
2.0
2.0
1.9
1.9
JUPITER, 1855.
211
NOVEMBER.
DECEMBER.
GREENWICH MEAN TIME.
1
1
GREENWICH MEAN TIME.
Appareot
Kight
Aaceasfon.
Var.of
R,A.
fori
hour.
OecUmtloD.
Var.of
Dec
fori
hour.
Meridian
Puiage.
Asceaciion.
Var.ol
R.A.
fori
hour.
Declination.
Var.ol
Dec.
for 1
hour.
Meridian
Paaaage.
Noon.
Noon.
Noon,
Noon.
H
3.63
Noon.
Noon,
Noon.
Noon.
' 1
h. m. a.
2148 5.03
9.
0.417
O 1 N
-14 66 82.9
h. m.
7 1.2
1
b. m. 8.
21 58 25.75
0.
1.365
O 1 «
-18 5887.4
n
6.99
h. m.
5 13.5
2
21 48 15.42
.448
14 5580.6
.67
6 57.4
2
21 53 56.41
.366
13 55 48.1
7.18
5 10.1
8
21 48 26.57
.480
14 54 24.5
.83
6 53.7
3
21 54 27.68
.313
18 5255.6
.36
5 6.7
4
21 48 88.47
.613
14 5814.6
3.99
6 50.0
4
21 54 59.41
.336
13 49 59.9
.38
5 8.8
5
21 48 51.18
.649
14 52 0.7
8.16
646.8
6
21 55 81.75
.359
13 47 1.1
.51
4 59.9
6
^144 4.58
0.674
14 50 48.0
8.33
642.6
6
2156 4.63
1.381
13 48 59.2
7.64
4 56.5
7
21 44 18.68
.006
14 49 21.5
.47
988.9
7
21 56 88.05
.404
13 4054.3
.76
4 68.1
8
21 44 88.58
.636
14 4756.1
.63
685.2
8
21 57 12.01
.436
13 87 46.8
7.90
4 49.7
0
21 44 49.22
.606
14 46 27.0
.79
681.5
9
21 57 46.49
.446
18 84 85.2
8.03
4 46.4
10
2145 5.59
.697
14 44 54.1
3.96
627.8
10
21 58 21.49
.469
138121.1
.15
4 48.1
11
21 45 22.68
0.717
14 4817.5
4.10
624.1
11
21 68 57.00
1.490
13 28 4.0
8.37
4 89.8
12
21 45 40.49
.767
14 4187.2
.36
620.5
12
21 59 88.01
.611
13 24 43.9
.39
4 86.4
18
21 45 59.01
.787
14 89 53.1
.41
616.9
18
22 0 9.51
.631
18 2121.0
.61
4 83.1
14
21 46 18.24
.616
14 88 5.8
.67
618.8
14
22 0 46.48
.561
1817 55.2
.63
4 29.8
15
21 46 88.17
.846
14 3618.9
.73
6 9.7
15
22 128.93
.571
13 14 265
.75
4 26.5
16
21 46 58.79
0.878
14 84 18.8
4.87
6 6.1
16
22 2 1.85
1.690
1310 55.0
8.87
4 28.2
17
21 47 20.09
.909
14 82 20.1
6.03
6 2.5
17
22 2 40.22
.608
18 7 20.8
8.06
4 19.9
18
21 47 42.06
.930
14 8017.8
.17
558.9
18
22 3 19.04
.636
13 8 43.9
9.09
4 16.6
19
2148 4.70
.967
14 2812.0
.81
5 55.8
19
22 3 58.30
.645
18 0 4.2
.31
4 13.8
20
21 48 28.00
0.964
1426 2.8
.46
551.8
20
22 4 87.99
.663
12 56 21.8
.33
4 10.0
21
21 48 51.95
1.013
14 28 50.1
6.60
548.8
21
22 5 18.11
1.681
12 52 86.8
9.43
4 6.7
22
21 49 16.55
.038
14 2188.9
.76
544.8
22
22 5 58.65
.698
12 48 49.1
.54
4 8.4
28
2149 41.79
.064
141914.8
6.89
541.3
23
22 6 89.59
.714
12 44 58.8
.65
4 0.1
24
2150 7.65
.090
1416 51.8
6.03
537.8
24
22 7 20.93
.731
12 41 6.0
.75
8 56.9
25
21 50 84.18
.116
14 14 24.9
.17
584.8
25
22 8 2.67
.747
128710.5
.66
8 58.7
26
2151 1.23
1.143
14 11 55.2
6.31
580.8
26
22 8 44.80
1.763
12 3312.6
9.96
8 60.5
27
21 51 28.94
.167
14 9 22.2
.44
5 27.8
27
22 9 27.81
.779
12 2912.3
10.06
8 47.3
28
21 51 57.26
.193
14 6 45.8
.58
528.8
28
22 10 10.19
.795
12 25 9.5
.16
3 44.1
29
21 52 26.17
.317
14 4 6.2
.73
5 20.3
29
22 10 58.45
.810
12 21 4.3
.36
8 40.9
80
21 52 55.67
.343
14 128.4
6.66
516.9
80
221187.07
.836
1216567
.86
8 87.7
81
21 58 25.75
1.366
13 58 87.4
6.99
518.5
31
22 12 21.05
1.839
1212 46.7
10.47
8 34.5
82
21 58 56.41
1.388
-18 55 48.1
7.13
510.1
32
2218 5.88
-12 8 34.4
8 31.4
1
II
>
DajoftheMoath,
lal.
lllh.
mjtL
3Ut.
Day of the Month,
Iflt.
11th.
91«t.
Slat.
19.9
19.4
u
18.8
18.2
Polar Semidiameter
18.2
17.7
17.3
II
16.8
Horizonua Parallax
1.8
1.8
1.8
1.8
Horizontal Parallax
1.7
1.6
1.6
1.6
212
SATURN, 1855.
1'
JANUARY.
FEBRUARY.
GREENWICH MEAN TIME.
GREENWICH MEAN TIME.
Aaceoakm.
Var.of
R.A
fori
hour.
DeSSuikm.
Var.of
Dec.
fori
hour.
Meridian
ftu«g«
^sEsr
Var.of
RA.
for 1
hour.
Noon.
DecSaatioo.
Var.of
Dec.
fori
hour.
Meridian
Noon,
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
0.99
1
Km. B.
4 85 85.81
B.
0.069
O 1 If
+20 17 15.2
B
0.99
h. m.
9 51.6
1
h. m. a.
4 30 5.72
a.
0.161
O t #f
+20 12 50.4
h. m.
7 44.8
2
4 8518.94
.676
2016 53.5
.89
9 47.4
2
4 80 2.10
.141
2012 57.8
.33
7 40.8
8
4 85 2.89
.663
2016 82.5
.86
9 48.2
3
4 2958.95
.191
2018 6.3
.38
7 86.8
4
4 84 47.16
.649
2016 12.8
.83
9 89.0
4
4 2956.28
.101
201815.8
.49
7 32.3:
5
4 84 81.75
.6S6
2015 52.8
.80
9 34.8
5
4 2954.09
.081
2018 26.4
.46
7 28.4
6
4 8416.68
0.691
2015 84.1
0.76
9 80.6
6
4 2952.87
0.069
201888.0
0.61
7 24.4
7
4 84 1.96
.606
2015 16.2
.73
9 26.4
7
4 2951.18
.049
2013 50.7
.66
7 20.5
8
4 88 47.59
.691
2014 59.1
.69
9 22.8
8
4 29 50.37
.092
2014 4.4
.69
7 16.5,
9
4 83 88.59
.676
20 14 42.8
.66
9 18.1
9
4 29 50.08
-.009
20 14 19.2
.64
7 12.6
10
4 3819.96
.660
2014 27.4
.63
9 13.9
10
4 29 50.27
+.018
2014 85.0
.60
7 8.6
11
4 83 6.70
0.644
2014 12.8
0.69
9 9.8
11
4 29 50.94
0.036
2014 51.9
0.73
7 4.7
12
4 82 58.88
.698
2013 59.1
.65
9 5.7
12
4 2952.08
.068
2015 9.8
.77
7 0.8
13
4 32 41.85
.619
20 18 46.8
.61
9 1.5
13
4 29 53.70
.078
201528.7
4i\
6 56.9
14
4 32 29.27
.496
20 13 84.5
.47
8 57.4
14
4 2955.80
.098
2015 48.7
.85
6 53.0
15
4 82 17.59
.478
20 13 28.6
.43
8 53.8
15
4 29 58.38
.117
2016 9.7
.90
6 49.2
16
4 82 6.82
0.461
2013 18.6
0.69
8 49.2
16
4 80 1.43
0.137
201681.7
0.94
6 45.3
17
4 3155.47
.446
2018 4.6
.35
8 45.1
17
4 80 4.96
.167
2016 54.8
0.98
6 41.4
18
4 81 45.04
.496
2012 56.6
.31
8 40.9
18
4 80 8.97
.177
201718.9
1.03
6 87.5
19
4 81 85.03
.408
20 12 49.5
.97
8 86.8
19
4 80 18.45
.197
2017 44.0
.07
6 38.7
20
4 3125.46
.690
20 12 48.4
.93
8 82.8
20
4 80 18.41
.917
201810.1
.11
6 29.8
21
4 31 16.32
0.879
2012 88.3
0.19
8 28.7
21
4 8028.85
0.936
2018 87.1
1.15
6 26.0
22
4 31 7.62
.663
20 12 84.2
.16
8 24.6
22
4 8089.76
.966
2019 5.1
•19
6 22.2
23
4 30 59.87
.664
2012 81.1
.11
8 20.5
28
4 8086.14
.976
201984.1
.93
6 18.8
24
4 80 51.57
.616
2012 29.1
.07
8 16.5
24
4 8042.99
.996
20 20 4.0
.97
6 14.5
25
4 8044.22
.997
2012 28.1
-.09
8 12.4
25
4 80 50.80
.614
202084.9
.31
6 10.7
j
26
4 80 37.88
0.978
2012 28.1
+.09
8 8.4
26
4 8058.08
0.334
20 21 6.7
1.34
6 6.9
27
4 80 80.90
.9M
20 12 29.2
.07
8 4.4
27
4 81 6.82
.363
202189.4
.38' 6 8.1 •
28
4 80 24.93
.969
2012 81.3
.11
8 0.4
28
4 81 15.01
.379
202213.0
U9
5 59.3
29
4 80 19.42
.990
2012 84.5
.15
7 56.4
29
4 81 24.16
.390
2022 47.5
.45
5 55.6
80
4 8014.38
.900
20 12 88.7
.90
7 52.8
80
4 81 88.75
.409
202822.8
.49
5 51.8
81
4 80 9.81
0.180
2012 44.0
0.94
7 48.8
31
4 81 48.79
0.498
2028 69.0
1.69
1
5 48.0
82
4 80 5.72 0.101
-(•20 12 50.4
0.99
7 44.8
32
4 31 54.28
0.446
+2024 36.0
1.66' 5 44.8
1
n»y of the Month,
lit
11th.
«laL
aiat.
0«3
r of the Month,
1ft ; 11th.
%tm. \ 81A. !
PoUur SeinidUroetcr
M
9.1
9.0
8.9
M
8.7
Pc
U 1 «
8.7 1 8.6
n
8.4
a
8.2 .
Horizonul PanUUx
l.l
1.0
1.0
1.0
H(
>riionul PanOlaz
1.0 1.0
1.0
1.0 !
-1
SATURN, 1855.
213
MARCH.
APRIL.
1
1
GREENWICH MEAN TIME.
1
"s
1
GREENWICH MEAN TIME.
Asceoakm.
Varof
K.A.
fori
hour.
Apparent
Daclination.
Var.of
Dec.
furl
hour.
Meridian
Paaaane.
Aacenaion.
Var.of
R.A.
fori
hour.
Apparent
DecQnatioo.
Var.of
Dec.
fori
hour
Noon.
Meridian
Paaaa«e.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
Noon.
1 1
h. m. a.
43124.16
a.
0.S90
O t 0
+2022 47.5
a
1.46
h. m.
555.6
1
h. m. a.
4 39 34.75
B.
0.903
O 1 u
+20 4631.9
3.36
h. m.
4 1.9
i 2
4 3133.75
.409
2023 22.8
.49
551.8
2
4 39 56.58
.916
2047 26.2
.37
3 58.8
3
4 3143.79
.438
2028 59.0
.63
548.0
3
4 40 18.73
.960
20 48 20.8
.38
3 54.7
4
43154.28
.446
2024 36.0
.66
5 44.3
4
4 40 41.21
.943
204915.8
.80
3 51.2
5
432 5.21
.464
202518.8
.69
5 40.5
5
441 4.00
.966
205011.0
.81
3 47.6
6
4 3216.57
0.483
2025 52.5
1.63
536.8
6
4 4127.10
0.969
2051 6.5
3.83
3 44.1
7
432 28.87
.601
2026 31.9
.66
5 33.0
7
4 4150.51
.983
2052 2.8
.88
3 40.5
8
4 32 40.60
.619
202712.1
.69
529.3
8
4 42 14.23
0.994
205258.4
.84
3 37.0
0
482 53.26
.636
2027 53.1
.73
525.6
9
4 42 38.24
1.007
2053 54.7
.35
3 33.5
10
438 6.35
.664
2028 34.8
.75
521.9
10
4 43 2.55
.019
205451.2
.86
3 29.9
11
4 3319.86
0.673
202917.3
1.78
518.2
11
443 27.16
1.031
2055 48.0
3.37
8 26.4
12
483 33.79
.689
2030 0.5
.61
514.5
12
4 43 52.06
.048
2056 45.0
.88
8 22.9
13
433 48.13
.606
2080 44.4
.84
510.8
13
4 44 17.24
.055
2057 42.1
.89
3 19.4
U
434 2.88
.033
203129.0
.87
5 7.1
14
4 44 42.70
.067
2058 89.4
.39
8 15.9
15
4 3418.04
.640
203214.2
.90
5 3.4
15
4 45 8.44
.078
2059 36.9
.40
8 12.4
16
48438.61
0.667
2083 0.1
1.93
459.8
16
4 45 84.45
1.089
21 034.5
3.40
3 8.9
17
4 34 49.58
.674
2033 46.7
.96
4 56.1
17
4 46 0.73
.100
21 132.1
.40
8 5.4
18
435 5.95
.690
2034 34.0
1.99
4 52.4
18
4 46 27.27
.111
21 2 29.8
.41
8 1.9
19
485 22.72
.707
2035 22.0
3.01
4 48.8
19
4 46 54.07
.133
21 3 27.6
.41
2 58.4
20
435 39.88
.733
208610.6
.04
4 45.1
20
4 47 21.12
.133
21 4 25.4
.41
2 54.9
21
4 35 57.43
0.789
2086 59.7
3.06
4 41.5
21
4 47 48.41
1.143
21 5 23.2
3.41
2 51.4
22
43615.36
.755
2037 49.4
.08
4 37.9
22
4 48 15.95
.153
21 6 20.9
.40
2 48.0
23
4 3683.68
.771
2038 39.6
.10
434.2
23
4 48 43.72
.163
21 718.6
.40
2 44.5
24
4 36 52.87
.786
2089 80.3
.13
480.6
24
449 11.72
.171
21 816.2
.40
2 41.0
25
4 3711.43
.803
204021.5
.14
427.0
25
4 49 39.94
.180
21 918.8
.40
2 87.6
26
4 87 30.85
0.817
204113.2
3.16
4 28.4
26
4 50 8.88
1.189
211011.3
3.39
2 84.1
27
4 87 50.68
.833
20 42 5.4
.18
419.8
27
450 37.03
.198
2111 8.7
.39
2 80.6
28
4 3810.77
.846
2042 58.0
.30
416.2
28
4 51 5.89
.307
2112 6.0
.89
2 27.2
29
4 38 31.25
.861
20 48 50.9
.31
412 6
29
45134.95
.315
2113 3.2
.38
2 28.7
30
4 38 52.08
.875
2044 44.2
.33
4 9.0
30
452 4.21
.323
2114 0.3
.38
2 20.3
31
4 8913.25
0.889
204587.9
3.34
4 5.4
31
452 33.66
1.331
2114 57.2
3.37
2 16.8
32
4 89 34.75
0.903
+20 46 31.9
3.36
4 1.9
32
4 53 3.30
1.339
+2115 54.0
3.86
2 13.4
II
Daj of the Month,
lat
11th.
Mat
31^;.
Da
7 of the Month,
lat
11th.
aiat.
Slat.
Polar Semidiameter
N
8.3
1*
8.1
II
7.9
II
7.9
P<
>lar Semidiameter
If
7.9
u
7.8
7.6
II
7.5
Horizontal Parallax
0.9
0.9
0.9
0.9
H
orizontal Parallax
0.9
0.9
0.9
0.9
214
SATURN, 1855.
MAY.
JUNE.
1
GREENWICH MEAN TIME.
GREENWICH MEAN TIBIE.
AKaoaion.
Vw.of
ELiL
for 1
hour.
DedSuUoa.
Varof
Dec.
fori
hour.
Meridian
Paaa&ge
Aacttoaioo.
Var. of
ELA.
for 1
hour.
DedmaUoQ.
Varof
Dec
for 1
hour.
Noon.
MeridiMi
JVban.
XtHfH.
Noon.
Noon.
Noon.
Soon.
Noon.
! 1
h. in 9.
4 52 33.66
a.
1.2S1
0 1 It
+2114 57.2
N
3.87
h. m.
216.8
1
h.m. a.
5 8 59.34
a.
1.887
O 1 N
+2142 6.3
N
1.98
h. m. '
0 31.8
i 2
4 53 8.30
.389
2115540
.86
213.4
2
5 9 32.65
.889
21 42 52.4
.91
0 27.9 1
r ^
4 53 33.13
.347
2116 50.7
.86
210.0
3
510 6.00
.890
21 43 88.0
.89
0 24.5
1 ^
454 8.14
.354
211747.2
.85
2 6.5
4
51089.39
.893
21 44 28.2
.87
0 21.2
i 5
1
4 54 88.38
.363
21 18 48.5
.84
2 8.1
5
5 11 12.82
.894
2145 7.8
.85
017.8
1
i!«
4 55 8.69
1.369
21 1989.6
3.34
159.7
6
5 11 46.28
1.895
2145 51.9
1.83
1
014.4
!, 7
4 5584.28
.376
212035.6
.88
156.2
7
5 12 19.78
.896
2146 85.5
.81
011.0;
; 8
4 56 4.93
.38S
21 21 31.8
.83
1 52.8
8
512 53.80
.897
21 47 18.6
.78
0 7.6 1
1 9
4 5635.79
.389
212226.8
.81
149.4
9
513 26.84
.898
2148 1.1
.76
0 4.8
10
4 57 6.81
.396
2128 22.0
.80
146.0
10
514 0.89
.896
2148 48.1
.74
S a oo.f>
11
4 57 37.98
l.t03
21 24 17.0
3.39
142.6
11
514 88.94
1.396
2149 24.6
1.73
28 54.2,
. 12
4 58 9.31
.106
212511.7
.27
189.2
12
515 7.50
.396
2150 5.5
•69
28 50.8
la
4 58 40.78
.SU
2126 6.1
.96
185.7
18
51541.06
.396
215045.9
.87
28 47.4
11
4 5912.89
.S30
2127 0.2
.35
182.8
14
5 16 14.62
.396
21 51 25.7
.85
28 44.0
1 15
4 59 44.13
.S3A
21 27 53.9
.38
128.9
15
516 48.17
•896
2152 5.0
.88
28 40.6
1 16
5 016.00
1.S81
2128 47.3
3.39
125.5
16
51721.70
1.307
2152 48.7
1.80
28 87.8
17
5 0 48.00
.SS6
21 29 40.8
.30
122.1
17
5 17 55.21
.396
2158 21.8
.56
28 83.9
|18
5 120.12
.341
218032.9
• 19
118.7
18
518 28.70
.395
2158 59.8
.55
28 80.5
;i9
5 152.35
.345
21 81 25.2
.17
115.8
19
519 2.16
.393
2154 86.2
.58
28 27.2
.20
5 2 24.68
.349
218217.1
.15
111.9
20
51985.58
.393
21 65 12.6
•50
28 28.7
21
5 2 57.11
1.SM
2188 8.5
3.18
1 8.5
21
5 20 8.97
1.M0
2155 48.4
1.48
28 20.4
< 22
5 8 29.64
.359
2188 59.5
.19
1 5.1
22
5 2042.81
.388
2156 28.6
•45
28 17.1 .
2J
5 4 2.27
.363
2184 50.1
.10
I 1.8
23
5 2115.60
.386
2166 58.2
.43
28 18.6 I
/24
5 4 34.99
.367
2185 40 3
•08
058.4
24
52148.84
.384
215782.1
•40
28 10.2 1
i;"
5 5 7.79
.371
218680.1
•07
055.0
25
522 22.02
•383
2158 5.4
•38
28 6.9 1
!2<
5 540.67
1.374
21 87 19.5
3.06
051.6
26
52265.15
1.879
215888.1
1.35
28 8.5 1
27
5 613.62
.376
2188 8.5
.08
048.2
27
5 2828.21
•878
21 69 10.8
03
28 0.1 1
28
5 646.64
.379
2188 57.0
3.01
044.8
28
524 1.19
.873
216941.9
.30
22 56.7
29
5 719.73
.381
2189 45.0
1.99
041 J)
29
5 24 84.10
.870
22 012.9
•38
22 58.8
30
5 752.88
.368
214082.6
.97
088.1
80
5 25 6.94
•887
22 048.8
.35
22 49.9 1
1
5 8 26.08 I.SSA
21 41 19.7
1.95
084.7
31
52589.69
1.883
22 118.1
1.33
22 46.5
S2
5 8 69.84 I.S87
+2142 6.8
1.93 081.8
32
5 2612.86
1.859
+22 142.8 1.30
22 48.1 1
! rMrorth0M.>nth,
lit.
11th.
ntM.
. Slat.
D.
f of the Month
tat
11th.
»laL
81ft.
at
7.5
75
It
7.5
N
7.4
P<
>)«r SemidUu
mtttr
a
7.4
7.4
N
7.4
7.5
Ho
rbontalPan
iIUx
0.9
0.9
0.9
0.9
H<
^riiooul Pai
«Uaz
0.9
0.9
0.9
0.9
- -J
SATURN, 1855.
215
JULY.
AUGUST.
1
J
GREENWICH MEAN TIME.
GREENWICH MEAN TIME.
Var.of
Varof
Var.of
Var.of
1 's
Ascension.
RJk.
ftwl
hour.
Apparent
Declination
Dec.
fori
hour.
Noon.
Meridian
IWige.
"5
Aeceiiaion.
K.A.
fori
hour.
Apparent
Deed nation.
Dec.
fori
hour.
Noon.
It
Meridian
Passage.
b. m.
Noon.
Noon
Noon.
Noon.
Noon.
Noon.
h. m. a.
O 1 N
N
h. m.
h m. m.
a.
O 1 tt
1
5 25 39.69
1.363
+22 118.1
1.93
22 46.5
1
5 41 28.69
1.167
+221149.8
0.60
21 0.3
2
5 2612.36
.369
22 142.8
.90
22 48.1
2
5 41 56.83
.147
2212 1.6
.48
20 56.8
3
5 26 44.93
.355
22 2 10.9
.19
22 89.7
8
5 4223.74
.138
22 12 12.9
.46
20 53.4
4
5 2717.41
.351
22 2 88.9
.15
22 86.8
4
5 42 50.92
.198
22 12 23.8
.44
2049.9
5
527 49.79
.347
22 8 6.8
.13
22 32.9
5
5 48 17.85
.117
22 12 84.2
.49
20 46.4
6
52822.06
1.349
22 8 88.1
1. 11
22 29.5
6
5 4844.58
1.106
2212 44.2
0.41
2042.9
7
5 28 54.22
.339
22 8 59.8
.08
22 26.1
7
5 44 10.96
.006
22 12 53.7
.39
2039.4
8
5 29 26.28
.333
22 4 25.0
.06
22 22.7
8
5 4487.14
.066
2218 2.8
.37
2085.9
9
5 29 58.21
.328
22 4 50.1
.03
2219.8
9
5 45 8.05
.074
2213 11.4
.36
2082.4
10
53030.02
.398
22 5 14.5
.01
22 15.9
10
5 4528.69
.069
22 18 19.6
.33
2028.8
11
531 1.70
1.317
22 5 88.4
0.98
2212 5
11
5 4554.06
1.051
22 18 27.4
0.39
2025.3
12
53183.25
.313
22 6 1.7
.96
22 9.1
12
5 4619.14
.039
22 13 84.8
.30
2021.8
13
5 32 4.66
.306
22 6 24.4
.94
22 5.7
13
5 4623.94
.097
22 18 48.8
.98
2018.3
14
5 8235.98
.300
22 6 46.6
.91
22 2.3
14
5 47 8.45
.015
22 18 48.4
.97
20 14.8
15
533 7.04
.993
22 7 8.2
.89
2158.9
15
5 4782.66
1.009
2218 54.6
.95
2011.2
16
583 38.00
1.9S6
22 7 29.2
0.86
21 55.5
16
5 4756.57
0.990
2214 0.4
0.93
20 7.7
17
5 34 8.80
.980
22 7 49.6
.84
21 52.0
17
5 48 20.18
.978
2214 5.7
.91
20 4.1
18
5 3439.44
.973
22 8 09.5
.89
2148.6
18
5 48 43.48
.964
22 14 10.7
.90
20 0.6
19
5 85 9.91
.966
22 8 28.8
.79
21 45.2
19
5 49 6.46
.961
22 14 15.3
.19
19 57.0
20
5 35 40.21
.969
22 8 47.6
.77
21 41.7
20
5 4929.12
.938
22 14 19.6
.17
1953.5
21
58610.38
1.951
22 9 05.8
0.75
2188.8
21
5 4951.46
0.994
22 14 28.5
0.16
19 49.9
22
58640.27
.944
22 9 28.4
.79
21 34.9
22
5 5018.48
.911
22 14 27.1
.14
19 46.3
23
58710.02
.936
22 9 40.5
.70
21 31.4
23
5 5085.18
.897
22 14 30.3
.13
19 42.8
24
587 39.58
.998
22 9 57.0
.08
2128.0
24
5 5056.54
.683
2214 83.1
.11 1939.2
25
588 8.95
.990
22 10 18.0
.65
21 24.5
25
5 51 17.56
.669
22 14 35.8
.10 19 35.6
26
5 8888.12
1.911
22 10 28.4
0.63
21 21.1
26
5 51 38.28
0.854
22 14 88.1
0.09 19 82.0
27
589 7.08
.909
22 10 43.3
.61
21 17.6
27
5 51 58.56
.840
22 14 40.1
.07 19 28.4
28
539 85.83
.104
22 10 576
.59
21 14.2
28
5 52 18.54
.895
2214 41.8
.07 19 24.8
29
5 40 4.37
.185
2211 11.4
.56
21 10.7
29
5 5288.16
.810
22 14 43.3
.06 19 21.2
30
5 4082.70
.176
221124.7
.64
21 7.2
80
5 5257.42
.796
22 14 44.5
.05 19 17.6
1
81
541 0.81
I.IGO
22 11 87.5
0.59
21 8.8
31
5 53 16.33
0.780
22 14 45.5
0.04 1914.0
32
54128.69
1.157
+22 11 49.8
0.50
21 0.8
32
5 5334.87
0.765
+22 14 46.2
0.09 19 10.3
_J
Dftjr of the Month,
1st.
llih
Jlln
31«t.
Daj
r of the Month,
Iflt.
11th.
9l8t.
Slst.
Polar Semidiaraeter
II
7.5
7 5
7.6
N
7.6
Po
lar Semidiameter
a
7.6
II
7.7
7.9
8.0
Horizontal Parallax
0.9
0.9
0.9
0.9
He
nizontal Parallmz
0.9
0.9
0.9
0.9
216
SATURN, 1855.
SEPTEMBER.
OCTOBER. 1
1
GREENWICH MEAN TIME.
1
s
1
"5
1
GREENWICH MEAN TIME.
^6^t"^
Var.of
RA.
for 1
hour.
DeclSMiron
Var.of
Dec.
fori
hour.
Noon.
Meridian
Passage.
AaceiMion.
Var.of
R.A.
for 1
hour.
Noon.
Apparent
Declination
Var.of
Dec
fori
hour.
Noon
n
0.19
Meridian
P*«i«e. 1
Noon.
Noon
Noon.
Noon.
Noon.
1
1
h. m. a.
5 58 34.87
a.
0.766
0 1 u
+22 14 46.2
0.09
h. m.
19 10.3
1
h. m. a.
65989.57
a.
0.929
+2213 52.4
h. 01. II
17 18.2.;
2
658 53.03
.749
22 14 46.6
+.01
19 6.7
2
5 5944.82
.909
2213 49.6
.19
17 14.4;
8
5 54 10.82
.7M
22 14 46.8
.00
19 8.0
8
659 49.59
.189
29 18 46.7
.19
17 10.5
4
5 54 28.22
.717
22 14 46.8
.00
18 59.4
4
65953.89
.169
22 18 43.9
.12
17 6.7'
5
554 45.24
.701
22 14 46.6
-.01
18 55.8
5
5 5957.71
.149
2213 41.1
.19
17 2.8 i
6
555 1.87
0.6M
22 14 46.1
0.09
18 52.1
6
6 0 1.05
0.199
2213 88.3
0.12
1
16 58.9
7
555 18.10
.M6
22 14 45.4
.08
18 48.4
7
6 0 3.91
.109
2213 85.5
.19
16 55.0
8
5 55 83.94
.061
22 14 44.6
.04
18 44.7
8
6 0 6.28
.089
22 13 82.7
.12
16 51.1
9
5 55 49.87
.0S4
22 14 48.5
.06
18 41.1
9
6 0 8.17
.069
2213 29.9
.19
16 47.2
10
5 56 4.89
.017
2214 42.3
.06
18 37.4
10
6 0 9.58
.049
221827.2
.12
16 48.3
11
5 56 19.00
0.000
22 14 40.9
0.00
18 33.7
11
6 010.50
0.098
221324.4
0.11
16 89.4;
Il2
5 56 38.19
.663
22 14 89.4
.07
18 80.0
12
6 010.93
+.008
221321.7
.11
16 85.5
13
5 56 46.96
.606
22 14 87.7
.07
18 26.3
18
6 010.87
-.012
22 18 19.0
.11
16 81.51
14
5 57 0.81
.647
22 14 85.9
.06
18 22.5
14
6 010.84
.099
22 18 16.3
.11
16 27.6 1
il5
5 57 18.23
.690
22 14 88.9
.09
18 18.8
15
6 0 9.82
.069
22 18 18.7
.11
16 28.6
16
5 57 25.72
0.611
2214 81.8
0.09
18 15.1
16
6 0 7.82
0.073
221811.1
0.11
1619.7
17
5 57 87.77
.40S
22 14 29.7
.09
18 11.4
17
6 0 5.83
.093
2218 8.6
.10
16 15.7'
16
5 57 49.89
.476
22 14 27.4
.10
18 7.6
18
6 0 8.86
.118
2218 6.1
.10
16 11.7
19
5 58 0.57
.467
2214 25.0
.10
18 8.9
19
6 0 0.41
.133
2218 8.7
.10
16 7.7,
20
5 58 11.81
.438
22 14 22.5
.10
18 0.1
20
65966.99
.163
2218 1.8
.10
16 8.7'
1
21
558 21.60
0.410
22 14 20.0
0.11
17 66.4
21
669 68.09
0.179
2212 59.0
0.09
15 59.7*
22
558 81.44
.401
22 14 17.4
.11
17 62.6
22
5 69 48.72
.109
22 12 66.8
.09
1555.7'
28
5 58 40.88
.089
2214 14.7
.11
17 48.8
28
659 48.87
.919
2212 54.7
.09
15 51.7:
24
558 49.78
.MS
22 14 12.0
.11
17 45.0
24
66988.54
.932
2212 52.6
.09
15 47.7.
25
5 58 58.28
.144
2214 9.3
.11
17 41.2
25
56982.75
.961
2212 50.6
.08
15 48.6!
• 1
26
559 6.81
0.SS6
2214 6.5
0.19
17 87.4
26
66926.50
0.970
2212 48.7
0.08
15 89.6
'27
5 59 18.89
.MO
2214 8.7
.19
17 83.6
27
65919.78
.990
2212 46.8
.06
15 85.6
■ 28
5 59 21.01
.987
2214 0.9
.19
17 29.8
28
65912.60
.309
2212 45.0 .07
15 81.5;
'29
5 59 27.66
.908
22 18 58.0
.19 17 25.9
29
5 59 4.96
.338
2212 43.3, .07 1 15 27.4
80
5 59 88.85
.948
22 18 55.2
.19
17 22.1
80
5 58 56.87
.346
221241.6 .07
15 23.4
31
5 69 89.57
0.990
22 18 52.4
0.19
17 18.2
81
658 48.33
0.366
2212 40.0 0.07
15 19.3 '
32
5 69 44.82 0.9M
+22 13 49.6
0.19 17 14.4
82
558 89.34
0.384
+2212 88.4 0.06,15 15.2
1
1
Day of th» Month,
liL
11th.
91«t
Slrt.
Daj
r of the Month.
lal.
11th.
Jllat
1
31at.
PoUr SeroidiAineter
8.0
8.1
8.3
8.4
Pc
tt
8.4
•
8.6
8.7
•••I
1 Horixontal Parallax
1
0.9
0.9
1.0
1.0
H<
>rizoiital PanOlaz
1.0
1.0
1.0
1.0 ,!
. 't
SATURN, 1855.
217
1 NOVEMBER.
DECEMBER.
1
5
QREENWICH MEAN TIME.
GREENWICH MEAN TIME.
Var.ori
Var.of
Var.of
Var.of
Apmreot
Right
Ascefwioo.
R.A.
fori
hour.
Dec
fori
hour.
Noon.
Meridian
Paeeuie.
Aeceiuion.
R.A.
fori
hour.
Decision.
Dec.
fori
hour.
Meridian
Noon.
N9on,
Noon.
Noon.
Noon,
a.
Noon.
Noon
h. m. «.
B.
O 1 u
M
h DL
h. m. a.
O 1 N
II
h. m.
1
5 58 89.84
0.884
+2212 38.4
0.06
15 15.2
1
551 9.78
0.815
+2212 0.9
0.05
18 9.7
2
5 58 29.91
.403
2212 36.9
.06
1511.1
2
5 50 50.11
.834
22 11 59.7
.06
18 5.4
8
5 68 20.03
.431
221285.4
.06
15 7.0
3
5 50 80.24
.833
22 11 58.4
.05
18 1.2
4
5 58 9.72
•439
221288.9
.06
15 2.9
4
550 10.18
.840
221157.1
.05
12 56.9
5
5 57 58.97
.467
221282.5
.06
1458.8
5
5 49 49.94
.847
221155.8
.06
12 52.6
6
5 57 47.80
0.47«
2212 31.1
0.06
14 54.7
6
549 29.53
0.854
22 11 54.4
0.06
12 48.4
7
5 57 86.20
.493
2212 29.7
.06
14 50.5
7
5 49 8.96
.860
22 11 53.0
.06
12 44.1
8
5 57 24.18
.509
2212 28.8
.06
1446.4
»
5 48 48.26
.866
221151.5
.06
12 39.8
0
5 67 11.76
.936
2212 27.0
.06
14 42.3
9
548 27.41
.871
22 11 60.0
.06
12 35.6
10
5 56 58.93
.643
221225.7
.05
1488.1
10
548 6.44
.876
221148.4
.07
12 81.8
11
6 56 45.70
0.659
221224.4
0.05
1434.0
11
547 45.36
0.880
221146.8
0.07
12 27.0
12
5 56 32.08
.576
2212 23.1
.05
14 29.8
12
5 47 24.19
.883
221145.1
.07
12 22.7
13
5 56 18.07
.693
2212 21.8
.05
14 25.6
13
5 47 2.96
.886
221143.4
.07
12 18.4
14
5 56 8.69
.607
2212 20.6
.05
1421.5
14
5 46 41.66
.889
221141.7
.07
12 14.2
16
5 55 48.94
.633
22 12 19.8
.05
14 17.3
16
546 20.29
.891
22 11 39.9
.07
12 9.9
16
5 55 83.82
0.687
22 12 18.1
0.05
1418.1
16
5 45 58.87
0.893
221188.1
0.06
12 5.6
17
5 55 18.35
.653
22 12 16.9
.05
14 8.9
17
5 46 37.48
.893
22 11 86.3
.08
12 1.3
18
6 55 2.54
.666
22 12 15.7
.05
14 4.7
18
545 16.00
.898
221184.6
.08
11 57.0
19
5 54 46.89
.680
22 12 14.5
.05
14 0.5
19
5 44 54.56
.894
221182.6
.08
11 62.7 1
20
5 54 29.91
.693
22 12 18.8
.05
13 56.3
20
5 44 88.11
.894
221180.8
.08
1148.4
21
5 64 13.12
0.706
22 12 12.2
0.05
1352.1
21
5 44 11.68
0.893
221128.9
0.08
11 44.1
22
5 53 56.02
.719
221211.1
.05
1847.9
22
5 48 50.30
.890
221127.1
.08
11 89.8
23
5 53 38.62
.731
2212 9.9
.05
13 48.6
23
543 28.96
.888
221126.8
.07
11 36.6
24
5 53 20.98
.743
2212 8.8
.05
18 39.4
24
5 43 7.68
.885
221123.5
.07
11 31.2
25
5 58 2.96
.754
2212 7.7
.05
1385.2
25
5 42 46.47
.883
221121.8
.07
11 26.9
26
5 52 44.72
0.766
2212 6.6
0.05
1330.9
26
5 42 25.34
0.879
221120.0
0.07
1122.7
27
5 52 26.22
.776
2212 5.5
.05
18 26.7
27
5 42 4.30
.875
221118.3
.07
11 18.4
28
5 52 7.46
.787
2212 4.8
.05
13 22.4
28
5 41 43.86
.870
221116.6
.07
11 14.1
29
5 51 48.46
.797
2212 3.2
.05
18 18.2
29
5 41 22.54
.865
22 11 15.0
.07
11 9.9
80
5 51 29.28
.806
2212 2.0
.05
18 18.9
80
5 41 1.85
.859
22 11 18.4
.06
11 5.6
81
5 51 9.78
0.815
2212 0.9
0.05
18 9.7
31
5 40 41.30
0.863
221111.9
0.06
11 1.8
32
5 50 50.11
0.834
+22 11 59.7
0.05
18 5.4
82
5 40 20.89
0.847
+22 11 10.5
0.06
10 57.1
II
Daj of the Month,
lat.
11th.
met
31st.
Da
7 of the Month,
let
11th.
91eu
81sL
Polar Semidiamcter
N
8.9
f
9.0
II .
9.1
9.2
P<
>lar Semidiameter
a
9.2
M
9.8
9.3
II
9.8
Horizontal Parallax
1.0
1.0
1.1
1.1
H
orizontal Parallax
1.1
1.1
1.1
1.1 ;
28
218 SUN'S COORDINATES, 1855.
Oresn-
wlch
Mean
X.
Y.
SB.
Due
X.
Y.
SB.
Nooa.
JanO
+.1633192
—.8894073
—.3859777
March
1
.1805362
.8865973
.3847677
1
+.9338033
— 4M)53148
—.1324980
2
.1976962
.8835127
.3834185
2
.9397172
.2903595
.1260078
3
.2147944
.8801547
.3819608
3
.9453474
.2753167
.1194798
4
.2318262
.8765242
.3803850
4
.9506926
.2601911
.1129160
5
+.2487869
—.8726219
—.3786914
5
+.9557513
— 2449867
—.1063180
6
.2656713
.8684489
.3768804
6
.9605220
2297080
.0996880
7
.2824744
.8640063
.3749527
7
.9650036
.2143594
.0930277
8
.2991912
8592955
.3729086
8
.9691949
.1989450
.0863389
9
.3158163
.8543176
.3707488
9
.9730944
.1834690
.0796234
10
+.3323446
—.8490735
—.3684737
10
+.9767011
—.1679359
—.0728830
11
.3487713
.8435644
.3660836
11
.9800137
.1523506
.0661199
12
.3650911
.8377922
.3635794
12
.9830309
.1367182
.0593363
13
.3812984
.8317588
.3609620
IS
.9857517
.1210437
.0525341
14
.3973879
.8254656
3582317
14
.9881754
.1053318
.0457156
15
+.4133545
— 8189142
—.3553893
15
+.9908011
—.0895871
—.0388828
16
.4291927
.8121067
.3524357
16
.9921281
.0738147
.0320378
17
.4448973
.8050452
.3493717
17
.9936559
.0580193
.0251827
18
.4604633
.7977322
.3461984
18
.9948841
.0422054
.0183196
19
.4758853
.7901704
.3429171
19
.9958126
.0263787
.0114506
20
+ 4911582
—.7823622
—.3395287
20
+.9964416
—.0105450
—.0045782
21
.5062774
.7743102
.3360343
21
.9967712
+.0052908
+.0022951
22
.5212383
.7660176
.3324353
22
.9968016
.0211240
.0091670
23
.5360360
.7574875
.3287330
23
.9965335
.0369498
.0160357
24
.5506655
.7487229
.3249290
24
.9959675
.0527635
.0228992
25
+.5651221
—.7397269
—.3210244
25
+ 9951045
+.0685604
+ 0297553
26
.5794029
.7305024
.3170206
26
.9939454
.0843356
.0366018
27
.5935032
.7210524
.3129189
27
.9924909
.1000835
.0434366
28
.6074185
.7113803
.3087208
28
.9907421
.1158007
.0502577 1
29
.6211454
.7014896
.3044280
29
.9887002
.1314824
.0570633
30
+.6346800
—.6913833
—.3000417
80
+.9863663
+.1471246
+.0638515
31
.6480186
.6810646
.2955633
81
.9837413
.1627224
.0706204
Feb.
April
1
+.6611575
—.6705367
—.2909943
1
+.9808263
+.1782719
+.0773681
2
.6740933
.6598026
.2863361
2
.9776228
.1937688
.0840929
3
.6868214
.6488660
.2815900
3
.9741319
.2092088
0907929 ,
4
.6993387
.6377297
.2767574
4
.9703546
.2245879
.0974664 1
5
+.7116420
—.6263965
—.2718396
6
+.9662918
+.2399017
+ 1041115 ;
6
.7237278
.6148700
.2668379
6
.9619449
.2551458
.1107265 .
7
.7355925
.6031537
.2617539
7
.9573151
.2703162
.1173095
8
.7472319
.5912504
.2565890
8
.9524033
.2854085
.1238587
9
.7586422
.5791641
.2513448
9
9472111
.3004184
1303723
10
+.7698198
—.5668985
—.2460225
10
+ 9417400
+.3153413
+.1368484
11
.7807613
.5544572
.2406239
11
.9359913
.3301726
.1432848
12
.7914631
^18441
.2351509
12
.9299667
.3449078
.1496796 1
13
.8019218
.5290632
.2296048
13
.9236681
.3595425
.1560309 ;
14
8121336
.5161185
.2239874
14
.9170972
.3740725
.1623370
15
+.8220952
— 6030140
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15
+ 9102562
+.3884930
+.1685958 ,
16
.8318038
.4897541
.2125463
16
.9031475
.4027997
.1748053
17
.8412563
4763432
.2067262
17
.8957731
.4169883
.1809636
18
.8504496
4627861
.2008425
18
.8881357
.4310545
.1870689
19
.8593810
^90871
.1948970
19
.8802379
4449939
.1931189
20
+.8680478
—4352508
—.1888918
20
+.8720828
+4588019
+.1991117
21
.8764477
4212820
.1828290
21
8636735
4724746
.9050459 J
. 22
.8845787
4071855
1767108
22
.8550125
4860084
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i 23
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23
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1 24
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24
8369498
.5126442
2224797 1
25
+.9073373
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— 1580434
25
+ 8275540
+.5257389
+.2281626 1
26
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1517231
26
8179194
.5386802
.2837787
27
.9211294
.3349460
.1453575
27
8080492
.5514649
.2393267
28
9276070
.3201784
.1389485
28
7979462
.5640899
.2448053
29
7876140
.5765518
.2502130
30
+ 7770552
+.5888473
+.2555483
SUN'S COORDINATES, 1855. 219
11 fTtwui^
- —
X.
Y.
z*
Dale,
%.
¥.
SE.
Koofk
i
4-7SS2733
+.6009732
+.2608100
July
I
-4595633
+.9211308
+J1997471
•A
7552715
.6129264
,2659967
S
.1762430
,9185763
.3986386
3
744053a
.6247035
.271 1069
5
.1928742
.9157643
.3974186
4
.7326315
6363016
,2761395
4
,2094527
,9126954
.3960871
5
-|-J2097^2
+.6477179
+.2810934
5
—.2259740
+.9093699
+.3946444
S
.7c>9l2S2
.6 58 9494
.2859672
6
2424.331
9057879
.3930905
7
.15970729
.6699929
.2907595
7
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.9019504
.3914259
S
.6«t48L62
.6803451
.2954688
1 S
.2751462
.6978584
.3896510
i
.6723612
.6915026
.3^.100^38
9
.2913911
.8935133
.3877661
10
+.6597120
+ 7019622
+.3046332
10
—.3075549
+.8889157
+.3857715
11
.6468721
.7122206
.3090856
11
.32.36332
.8840661
-3836675
IS
.6338450
.7222750
.3134495
12
.3396209
.8789659
.3814547
13
.62(>6346
.7321224
,31772.36
13
,3555129
,8736166
■3791^39
14
.6072449
.7417597
.3219066
14
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.8660199
.3767054
15
-|-.5936eol
+.7511840
+,3259972
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—.3869902
+ 8621770
+.3741699
16
.5799444
.760.3925
.32D9941
16
.4025659
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.3715283
17
,6660418
.7693823
.^318960
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.8497606
.3687815
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.5519765
.7781508
.3377018
18
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.5377533
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.4485891
.8363838
.3629755
30
+.5aa3767
+-79fi0l47
+.3460212
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+■8293404
+.5599183
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,5083521
.8031058
.M85328
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.62206.34
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.3501421
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.4344320
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.35846.16
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.6226748
.7988533
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+ 8331492
+.36J57ra
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+ 3431313
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26
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.3674741
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.7736253
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.4033968
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.3702700
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.7647781
.3318961
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+.8653630
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+.7464411
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,8710782
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■7369559
■3193225
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+ 3405495
+,8765479
+.3803996
1
-.6333127
+.7272629
+.3156164
.3245859
.B81770B
.3826657
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.717,^641
■3113211
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,8867455
.384S243
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.6592675
.?072618
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.2923853
.8914704
,3868746
4
.6719688
■6969584
3024670
+ 2761577
+.8959438
+.3888160
5
—.6844813
+ 6864564
+Ja979l03 !
.2598511
.9001644
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,7089231
.6648684
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.7208445
.6537877
■2837348
.2104978
.9112968
-3954802
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.7325613
6425197
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+.1939179
+.9144933
+-39686S1
10
^.7440703
+ 6310675
+■27387.^16
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.9174305
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11
.7553672
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.7664484
.6076234
.2637016
.1438611
.9225238
.4003554
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.7773102
.5956386
2585004
.1270862
,9246785
.4012910
14
.7879490
58,34835
2532251
+.1102750
+.9265706
+ 4021127
15
-^.798,3617
+.5711*115
+ 2478772
.0934326
.9281996
.4028201
16
.8085450
.5586764
■2424584
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,0765640
.9295653
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.818495R
.5460322
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,9.^6677
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.5332328
.2314151
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.9315068
.4042556
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.5202821
2257941
+.02,58551
+.9320826
+4045053
20
-.8469271
+.5071837
+.2201090
.0089336
,932.3950
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,8559212
.4939413
2143615
22
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.4805589
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.9322311
,4045685
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.2026863
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.9317560
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,8814225
.4533900
.1967620
95
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+ 9310192
+ 4040411
25
-.8894216
+.4.396112
+4907322
26
.0755913
.9300310
.4036073
26
.8971664
.4257074
'1847484
27
,0924481
.9287621
.4030606
27
,9046548
,4116819
-1786618
28
.1092779
.9272432
.4024010
28
.9118847
.3975388
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.1260764
.9254647
.4016288
29
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,3832816
■1663375
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—.1428396
+ .9234271
+.4007440
30
— ,9a.'i.'i606
+ .3689144
+.160J029 ^
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.3544407
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220 SUN'S COORDINATES, 1855.
Green-
wich
Mew
X.
Y.
SB.
DM*.
X.
Y.
z. .
Noon.
Sept
Not.
—.9881768
+41398645
+.1474971
1
—.7759896
—4667764
—.2459668
.9440820
.3251894
.1411292
2
.7648767
4789926
4512684
.9497157
.3104190
.1347198
8
.7535310
4910341
.2564945
.9550759
.2955576
.1282708
4
.7419556
.6028965
.2616429
— 9601606
+.2806091
+.1217839
5
—.7301529
—4145759
—.2667120
.9649678
.2655780
.1152611
6
.7181261
6260685
.2717002
.9694952
.2504688
.1087041
7
.7058794
.6373705
.2766056
.9737409
.2352859
.1021150
8
.6934160
.6484777
.2814266
.9777030
.2200336
.0954956
9
.6807898
.6593863
.2861615
—.9813802
+.2047167
+.0888481
10
—.6678548
—.6700981
.2953665
.2998832
.9847711
.1893399
.0821744
11
.6547651
4805939
.9878748
.1739078
.0754766
12
.6414751
.6908855
.9906886
.1584250
.0687567
13
.6279890
.7009647
4042076
.9932182
.1428964
.0620168
14
.6143110
.7108280
4084884
—.9954471
+.1273266
+.0552590
15
.6004456
— 7204724
—4126739
.9973895
.1117207
.0484856
16
.5863970
.7298950
4167628
.9990401
.0960838
.0416989
17
JK721699
.7390931
4207542
14)003986
.0804207
.0349008
18
.5577688
.7480639
4246469
4X)14646
.0647354
.0280931
19
.5431984
.7568046
4284396
20
— 4X)22376
+.0490325
+.0212779
20
—.5284630
-.7653128
—4321313
SI
.0027178
.0333165
.0144574
21
.5135668
.7735864
4357212
22
.0029050
.0175920
.0076333
22
.4985141
.7816232
4392083
28
.0027993
.0018634
.0008075
23
4833091
.7894206
4425914
24
.0024009
—.0138648
—.0060180
24
4679563
.7969760
25
—.0017099
—.0295885
—.0128413
25
—4524604
—.8042871
—4490416
26
.0007263
.0453036
4)196608
26
4368258
4113517
4521073
27
0.9994498
.0610052
.0264745
27
4210566
4181675
4550648
28
.9978800
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.0332805
28
4051568
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29
.9960172
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.0400771
29
4891308
.8310435
4606526
80
—.9938620
—.1079881
—4)468622
80
—4729837
—4370995
—4632811
Oct
Dec
—.9914146
-.1235932
—.0536340
1
-4567208
-.8428980
—4657979
.9886749
. .1391635
.0603908
2
4403449
.8484366
4682019
.9856430
.1546950
.0671308
3
3238627
.8537180
4704924
.9828190
.1701819
.0738517
4
4072790
.8587252
4726683
—.9787032
—.1856196
—.0805514
5
—.2905987
—.8634709
—4747284
.9747961
.9010034
.0872277
6
.2738268
.8679487
4766722
7
.9705985
.2163281
.0938786
7
.2569687
.8721566
4784989
.9661113
.2315888
.1005021
8
.2400301
.8760928
4802079
.9613358
.2467812
.1070960
9
.2230167
4797561
4817983
10
—.9562715
—.2619008
—.1136581
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—.2059341
—.8831455
— 8832696
.9509216
.2769420
.1201863
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.1887877
.8862599
4846213
.9452870
.2918996
.1266785
12
.1715830
.8890979
.9393689
.3067694
.1331326
13
.1543260
.8916585
4869642
.9331691
.3215469
.1395464
14
.1370223
.8939415
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-.3362271
—.1469179
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—.1196776
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— 3888245
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.3508055
.1522451
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.1022973
.8976725
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.3652773
.1585259
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.8991196
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.9055966
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—.2068834
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.5032181
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.8180503
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.1071213
.8966080
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.8078989
.5291214
.2296260
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—.2351439
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+1418170
—.8925251
—4873362
81
.7868661
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.2405914
31
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.8900667
ASTRONOMICAL EPHEMERIS
FOR THE
MERIDIAN OF WASHINGTON.
222 OBLIQUITY OF THE ECLIPTIC, &c.
SMaral
HmdNooo.
oCEquit/.
Pncsnion
ofEqui-
Dozn in
Lofifltud*.
Tha Sun'i
Mean I>>nfl-
ludeof D'at*-
candin; Noda.
laLonfiiudo.
InB.A.
AlMmtloD.
Hot. Pknllax
1855.
9i 9i
-(^76
1
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0
34.14
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deo
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8.72
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20.79
8.72
49 00.7
20
94.49
11.58
0.71
2.74
20.77
8.71
48 29.0
90
94.72
11.30
0.69
4.12
20.75
8.70
47 57.3
40
94.96
11.18
0.68
5.49
20.72
8.69
47 25.6
50
95.19
11.21
0.69
6.86
20.67
8.67
46 53.9
60
95.99
11.99
0.70
8.29
20.62
8.65
46 22.2
70
95.59
11.64
0.71
9.60
20.57
8.63
45 50.5
80
95.60
11.96
0.79
10.98
20.51
8.61
45 18.9
90
95.61
12.27
0.75
12.95
20.45
8.58
44 47.2
100
95.57
12.58
0.77
19.72
20.40
8.56
44 15.5
110
95.48
12.69
0.78
15.09
20.34
8.53
43 43.8
120
95.95
12.73
0.78
16.47
20.29
8.51
43 12.1
130
35.20
12.65
0.77
17.84
20.24
8.49
42 40.4
140
95.07
12.41
0.76
19.21
20.19
8.47
42 08.7
150
94.97
12.04
0.74
20.59
20.16
8.46
4137.1
160
84.91
11.59
0.71
21.95
20.18
8.45
41 05.4
170
34.92
11.08
0.68
23.93
20.12
8.44
40 33.7
180
84.98
10.56
0.65
24.70
20.11
8.44
40 02.0
190
35.09
10.07
0.62
26.07
20.11
8.44
39 30.3
200
35.25
9.67
0.59
27.44
20.12
8.44
38 58.6
210
85.45
9.38
0.57
28.81
20.14
8.45
38 26.9
220
35.67
. 9.18
0.56
30.19
20.17
8.46
37 55.3 1
290
35.89
9.15
0.56
81.56
20.21
8.48
37 23.6
240
36.08
9.25
0.57
32.93
20.25
8.50
36 51.9
250
36.24
9.44
0.58
84.31
20.80
8.52
36 20.2
260
36.95
9.72
0.59
35.68
20.36
8.54
35 48.5
270
36.98
10.03
0.61
37.05
20.41
8.57
35 16.8
280
96.95
10.32
0.69
38.42
20.47
8.59
34 45.1
290
96.27
10.59
0.64
89.79
20.53
8.61
34 13.4
1
800
96.15
10.63
0.65
41.16
20.59
8.64
33 41.8
310
96.00
10.60
0.65
42.54
20.64
8.66
33 10.1
320
95.84
10.40
0.64
43.91
20.68
8.68
32 38.4
330
95.70
10.04
0.61
45.28
20.79
8.70
32 06.7
340
95.59
9.56
0.59
46.65
20.76
8.71
3135.0
350
95.55
9.00
0.55
48.02
20.78
8.71
3103.3
960
95.57
8.99
0.51
49.40
20.79
8.72
30 31.6
370
95.67
-7.81
-0.48
60.77
-20.79
8.72
29 59.9
Mmlo
I Obliquity
Msioa for
, 1855.0
29 27'2§.
65
DaUjMolkML
1 __
Prect
1855.5 .
60.
2537
Log.
Preceasior
1 in a Side
real Day,
• • •
9.
13739
8.169
L Log-
Precewior
1 in a Sola
rDay. .
. • .
9.
13858
FIXED STARS, 1855. 223
For Waahingtoa Mmii MMafgliU
L0QARITHM8 FOB CORRECTLNO THE PLACES OF THE FIXED 8TAB8.
Data.
A. B.
O.
D.
DMe.
A.
B.
G.
D.
Jan. 1
—0^6558 -M30209
—9.38826
—0.74037
Marl
-1.24906
+0.82107
—8.78810
—0.83178
2
0.60253
1.30047
9.38148
0.74153
1.25158
0.79824
8.77137
033294
3
0.63644
1^871
9J7462
0.74270
1.25396
0.77401
8.75412
0.83407
4
0.66776
1.29680
9.36767
0.74389
1.25619
0.74823
8.73630
0.83516
5
0^9685
1.29475
9.36065
0.74511
1.25828
0.72069
8.71784
0.83622
6
—0.72898
+1^9255
—9.35355
—0.74636
—1.26022
-H).69116
-8.69871
-0.83724
7
0.74939
1.29021
9.34636
0.74765
1.26203
0.65934
837888
0.8.5823 1
8
0.77327
1.28771
9.33907
0.74898
1.26369
0.62490
8.65824
0.83917;
9
0.79581
1.28508
9.33169
0.75036
1.26522
0.58735
8.63669
0.84006
10
0.81703
1.28224
932422
0.75178
10
1.26661
0.54612
831416
0.84092
11
—0.83717
+1^7929
—9.31666
—0.75322
n
-1.26786
+0.50044
—8.59055
—0.84175
12
0.85658
1.27611
9.30901
0.75469
12
1.26898
0.44922
836573
0.84254
13
0.87445
1.27288
9.30127
0.75619
13
1.26996
0.39107
833958
0.84329
14
0.89176
1.26943
9.29343
0.75772
14
1.27081
032379
83U88
0.84400
15
0.90827
1.26583
9.28550
0.75928
15
1.27153
0.24395
8.48244
0.84466
16
—0.92405
H-l .26205
—9.27788
—0.76086
16
—1.27211
+0.14617
—8.45102
—0.84528
17
0.93913
1.25810
9.26938
0.76247
17
1.27256
0.01948
8.41697
0.84587
18
0.95358
1.25397
9.26119
0.76410
18
1.27288
9.83989
838003
0.84641
19
0.96731
1.24973
9.25289
0.76576
19
1.27307
+9.52798
834005
0.84691
20
0.98070
1.24518
9.24447
0.76743
20
1.27313
—8.23095
839623
0.84737
21
—0.99345
+1.24052
—9.23596
—0.76912
21
—1.27306
—9.56937
—834724
—0.84779
22
IXX)57I
1.23566
9.22737
0.77082
22
1.27286
936014
8.19229
0.84817
23
IJOIIAS
1.23062
9.21867
0.77254
23
1.27253
0X»256
8.12905
0.84851
24
1.02881
1.22537
9.20986
0.77427
24
1.27206
0.15550
8.05538
0.84880
25
1.03972
1.21993
9.20093
0.77601
25
1.27147
0.25104
7.96708
034906
26
—1.05022
+1.21429
—9.19190
-0.77776
26
—1.27075
—032920
—7.85552
-0.84928
27
1.06033 1.20843
9.18277
0.77951
27
1.26990
039515
7.70415
0.84945
28
1.07005
1.20235
9.17352
0.78127
28
1.26892
0.45233
7.46982
0.84958
29
li)7949
1.19606
9.16416
0.78304
29
1.26781
0.50270
—631908
034968
30
1.08855
1.18952
9.15470
0.78481
30
1.26656
0.54768
+7.11394
0.84974
31
—1.09728
4-1.18277
—9.14512
-0.78658
31
— 1JW519
—038826
+733529
—0.84976
Fab.1
1.10572
1.17576
9.13540
0.78835
Apr.l
1.26368
0.62527
7.74586
0.84974
2
1.U385
1.16851
9.12553
0.79012
1.26204
0.65922
7.88718
0.84969
3
1.12171
1.16099
9.11553
0.79188
1.26026
0.69058
7.99564
034960
4
1.12927
1.15323
9.10541
0.79363
1.25836
0.71989
8.08200
0.84946
5
—1.13660
-4-1.14514
—9.09517
—0.79537
—1.25629
—0.74684
+8.15412
—0.84929
6
1.14365
1.13679
9.08472
0.79711
1.25412
0.77224
8.21590
0.84908
7
1.15045
1.12814
9.07415
0.79885
1.25181
0.79612
837068
0.84884
8
1.15702
1.11919
9.06344
0.80057
1.24934
031862
831973
0.84857
9
1.16336
1.10990
9.05256
0.80227
1.24674
0.83989
836409
0.84826
10
-1.16945
-+-1.10028
—9.04151
—0.80895
—1.24399
—0.86003
+8.40466
—0.84792
11
1.17534
1.09030
9.03029
0.80563
1.24111
037914
8.44201
0.84755
12
1.18102
1.07995
9.01889
0.80730
1.23807
0.89731
8.47669
0.84715
13
1.18648
1.06921
9.00731
0.80894
1.23490
0.91463
8.50907
0.84671
14
1.19174
1.05808
8.99553
0.81056
1.23156
0.93115
833933
0.84624
15
—1.19680
-+-1 .04650
—8.98355
-0.81215
—1.22808
—0.94694
+836785
—0.84574
16
1.20168
1.03450
8.97137
0.81372
1.22445
0.96204
839591
0.84521
17
1.20636
1.02200
8.95899
0.81528
1.22065
0.97650
8.62067
034466
18
1.21085
1.00900 8.94640
0.81882
1.21670
0.99037
8.64523
0.84409
19
1.21516; 0.99548| 8.93358
0.81833
1.21259
1.00368
836867
0.84349
20
—1.21930
+0.98138 —8.92049
—0.81981
20
—1.20831
—1.01646
+8.69108
—0.84286
21
1.22326
0.96668 8.90711
0.82126
21
1.20387
1.02876
8 71265
0.84221
22
1.22706
0.95133 8.89343
0.82268
22
1.19926
1.04057
8.73336
0.84154
23
1.23068
0.93531 1 8.87945
0.82407
23
1.19247
135195 8.75328
034085
24
1.23413
0.91852 8.86516
0J2544
24
1.18951
1.06291 1 8.77254
0.84014
25
—1.23743
+0.90094 —8.85052
—0.82677
25
—1.18437
—137347 +8.79120
—0.83941
26
1JM057
0.88248i 8.83552
0.82807
26
1.17903
138365
8.80929
0.83866
27
1.24359
0.86309 8.82014
0.82934
27
1.17351
1.09348
832684
0.83789
28
1.24638
0.84264 8.80434
0.83058
28
1.16781
1.10295
8.84386
0.83712
29
1.24906
0.82107 j 8.78810
0.83178
29
1.16189
1.11210
8.86036
0.83633
30
—1.25158
+0.79824—8.77137
—0.83294
30
—1.15578
—1.12091
+837639
-0.83552
31
— 1.26396|-H).77401 —8.75412
—0.83407
31
—1.14945
-1.12945+8.89205
—0.83470
224 FIXED STARS, 181^5.
For WMhiogtoo MMa MidntgbL
LOQABITHMS FOR COBBSCTING THE PLACES OF TH£ FIXED STABS. |
Data.
A.
B.
C
D.
Due.
A.
B.
G.
D.
li»jl
—1.14945
— 1.1S945
+8.89205
—0.83470
Jol/l
-f«30018
—130433
+9.46238
—031593
S
1.14291
1.13770
8.90737
0.83388
8
034035
130304
9.46795
031672
8
1.18613
1.14560
8.92231
0.83304
3
037708
130171
9.47343
031754
4
1.1S915
1.15336
8.93688
0.83220
4
0.61081
130007
9.47882
031840
5
1.12193
1.16078
8.95109
033136
5
0.64201
139839
9.48413
0319301
6
—1.11444
—1.16796
+8.96499
—0.88051
6
+a67101
-139659
+9.48987
— 0.8S084
7
1.10669
1.17490
8.97860
0.82966
7
0.69806
139468
9.49453
032122!
8
1.09070
1.18162
8.99194
0.82880
8
0.72845
139260
9.49960
0.82223'
9
1X>9043
1.18810
9X)0500
0.82794
9
0.74731
1.29041
930458
032326
10
1.08189
1.19437
9.01780
0.82708
10
0.76982
138808
9.50948
032433
11
—1.07804
—1.20041
+9.08034
-0.82622
11
+0.79111
—138563
+931481
-032544*
12
1.06389
1.20686
9.04265
032537
12
031128
1.28303
931908
0.82657
13
1.05441
1.21191
9.05474
032453
18
0.83045
138080
939377
032773
U
1.04461
1.21736
9.06660
0.82370
14
0.84870
137744
9.52837
0.82891
15
1.03446
1.38S61
9.07885
0.82287
15
036610
137448
933289
0.83011
16
— 10S394
—1.22768
+9X)8970
—0.82206
16
+038271
—137127
+933733
—0.83135
17
1.01304
1.23257
9.10096
0.82125
17
0.89859
136798
9.54170
0.83261
18
1.00174
1.23728
9.11203
0.82046
18
0.91379
136454
934601
0.83389
19
0.99003
1.24181
9.12S91
031969
19
0.92838
1.26095
9.55025
0.83519
SO
0.97784
1.84618
9.13360
031894
20
0.94236
1357S0
935443
033651
SI
—0.96581
—1.25038
+9.14411
—031820
21
+035581
—135331
-1-935853
—033785
SS
0.95S07
1.25442
9.15445
0.81747
22
036872
134984
9.56256
0.83921
S3
0.93839
1.25830
9.16463
0.81676
23
0.98115
134502
9.56652
0.84059
S4
0.98416
1.S6S01
9.17464
031608
24
0.99313
134065
937042
034197
S5
0.90933
1.26558
9.18450
031542
25
1.00464
133609
937426
0.84337
S«
—0.89384
—1.26900
+9.19491
-031479
26
+1.01576
-1.23138
+937803
-0.84478
S7
0.87768
1.27226
930376
031418
27
1.02640
13S650
9.58173
0.84619
28
0.86076
1.27538
9.S1317
031360
S8
1.03682
1.S8142
938537
0.84762
S9
0.84303
1.27837
9.22246
031305
S9
1.04682
131615
938896
034906
80
0.82443
1.28120
9.23160
031252
80
1.05647
131072
9 59249
0.85050
—0.80487
—1.28389
+9.94059
— 031S03
31
+1.06574
—1.20505
+939595
-0.85194
JUIMI
0.78429
1.28644
9.24944
031158
Auff.l
1.07481
1.19924
9.59935
035338
0.76253
1.28887
9.25816
0.81115
S
1.08353
1.19390
9.60269
035483
0.73953
1.29115
936676
031075
3
1.09195
1.18695
9.60598
0.85628
0.71511
1.29331
9.27524
031039
4
1.10011
1.18048
9.60921
0.85773
—0.68910
—1.29533
+9.28359
—031007
5
+1.10799
-1.17378
+931838
—035918
0.66132
1.29722
9.29181
0.80978
6
1.11561
1.16686
931550
0.86062
0.63151
1.29898
939990
0.80953
7
1.12300
1.15970
931857
0.862051
0.59938
1.30061
930787
0.80932
8
1.13015
1.15SS9
9.62159
0.86348'
0.56455
130S12
931574
0.80915
9
1.13705
1.1446S
9.69457
0.86491
—0.52656
—1.30351
+93S350
—0.80902
10
+1.14373
—1.13669
+9.62750
—0.86632
0.48481
1.30476
933114
0.80892
11
1.15019
1.19849
9.63087 0.86771 '
043847
1.30590
933866
030887
19
1.15644
1.19000
9.63319 0.86909'
038646
1.30691
934607
0.80886
13
1.16248
1.11122
9.635961 0.870471
0.32713
1.30779
935338
030889
14
1.16832
1.10212
9.63869! 0.871841
—0.25852
-1.30856
+936059
—0.80897
15
+1.17397
—1.09270
+9.64187'— 037319
0.17672
1.30920
936769
0.80908
16
1.17942
1.08294
9.64401 ! 037452
0.07572
1.30972
937468
0.80923
17
1.18468
1.07284
9.64660, 037583
0.94376
1.31012
938156
030943
18
1.18977
1.06236
9.649161 0.87713,
9.75311
1.31040
938835
030967
19
1.19467
1.05149
9.65168 0.87841
—9.40509
—1.31056
+939505
—030996
SO
+1.19940
-1.04021
+9.65416-0,87967,
-1-8.76427
1.31060
9.40166
031029
SI
1.90396
1.02850
9 65659' 0.880901
S2
9.56853
131052
9.40817
0.81067
SS
130836
1.01634 9.65899' 0.88211
S3
9.83397
131031
9.41459
031108
83
131258
1.00370 9.66136 0.88329
24
9.99741
130999
9.42090
031154
84
1.21665
0.99054' 9.66369 0.88445
Sft
+0.11529
—130955
+9.42710
—031204
85
+132056
-037685 ' -1-9.66599 —038559 !
s«
0.20860
130898
9.43321
031259
S6
132431
0.96257 , 9.66825 1 0.88670 !
87
0.28493
130829
9.439S3
0.81318
87
1.22791
0.947671 9 67048' 0.88778
S8
0.34972
130749
9.44516
031380
S8
133136
093211! 9.67268 0 88884
S9
0.40597
130656
9.45099
031447
S9
1.23476
031583, 9.67485
0.88987
80
+045567
—130551
+9.45673
-031518
30
+133782
—039878+937699
>0.89088l
81
+0.50013
— 130433 +9.46238
—031593
81
+134082
—0.88090 +9 67910
-0.89186
FIXED STARS, 1855.
225
For Wuhington Mean Midnight.
LOGARITHMS FOB CORRECTING THE PLACES OF THE FIXED STARS.
Date.
A.
B.
C.
D.
D*i«.
A.
+1.16213
B.
C.
D.
Sepcl
+1.24370
—0.86212
+9.68119
—0.89280
NOT.I
+1.11173
+9.79391
—0.88913
2
1.24643
0.84233
9.68325
0.89371
2
1.15583
1.12087
9.79594
0.88833
3
1.24902
0.82146
9.68528
0.89459
3
1.14928
1.12969
9.79798
0.88752
4
1.25146
0.79938
9.68729
0.89544
4
1.14248
1.13822
9.80004
0.88671
5
1.25377
0.77598
9.68928
0.89625
5
1.13544
1.14645
9.80211
0.88590
6
+1.25596
—0.75111
+9.69125
—0.89703
6
+1.12815
+1.15440
+9.80420
—0.88508
7
1.25801
0.72460
9.69320
0.89778
7
1.12059
1.16209
9.80630
0.88426
8
1.25992
0.69618
9.69512
0.89850
8
1.11277
1.16951
9.80841
0.88344
1 ^
1.26170
0.66560
9.69703
0.89918
9
1.10466
1.17667
9.81053. 0.882631
1 10
1.26335
0.63260
9.69892
0.89983
10
1.09624
1.18360
9.81266 0.88182
u
+1.26486
—0.59671
+9.70080
—0.90045
11
+1.08753
+1.19028
+9.81480—0.88101
12
1.26626
0.55740
9.70266
0.90103
12
1.07850
1.19673
9.81695 0.88021
13
1.26752
0.51406
9.70450
0.90158
13
1.06913
1.20296
9.81911 0.87941
14
1.26865
0.46569
9.70633
0.90209
14
1.05941
1.20898
9.82128 0.87862
15
1^6965
0.41111
9.70815
0.90256
15
1.04934
1.21477
9.82345
0.87784
16
+1.27053
—0.34850
+9.70996
—0.90299
16
+1.03988
+1.22036
+9.82563
—0.87707
17
1.27128
0.27511
9.71176
0.90339
17
1.02803
1.22575
9.82782
0.87632
18
1.27190
0.18657
9.71356
0.90376
18
1.01673
1.28095
9.83001
0.87558
19
1.27240
0.07499
9.71534
0.90409
19
1.00502
1.23594
9.83221
0.87485
30
1.27276
9.92419
9.71709
0.90439
20
0.99282
1.24075
9.83443
0.87414
21
+1.27300
—9.69084
+9.71882
—0.90465
21
+0.98014
+1.24.%39
+9.83665
—0.87345
22
1.27312
—9.15029
9.72052
0.90487
22
0.96693
1.24983
9.83887
0.87277
23
1.27311
+9.31860
9.72230
0.90506
23
0.95316
1.25410
9.84110
0.8721 1
24
1.27297
9.74663
9.72406
0.90521
24
0.93878
1.25819
9.84333
0.87147
25
1.27270
9.95797
9.72570
0.90532
25
0.92378
1.26212
9.84556
0.87086
26
+1.27231
+0.09950
+9.72754
—0.90540
26
+0.90809
+1.26587
+9.84779
-0.87027
27
1.27178
0.20602
9.72928
0.90545
27
0.89167
1.26946
9.85002
0.86970
28
1.27113
0.29143
9.73102
0.90546
28
0.87444
1.27288
9.85226
0.86915
29
1.27035
0.36270
9.73276
0.90544
29
0.85636
1.27614
9.85450
0.86863
30
1.26944
042384
9.73450
0.90539
30
0.83735
1^27926
9.85674
0.86815
31
+1.26840
+0.47733
+9.73624
—0.90530
31
+0.81732
+1.28221
+9.85899
—0.86769
Oct. 1
1.26840
0.47733
9.73624
0.90530
Dec. 1
0.81732
1.28221
9.85899
0.86769
2
1.26723
0.52488
9.73799
0.90517
2
0.79614
1.28501
9.86123
0.86726
3
1.26592
0.56764
9.73974
0.90501
3
0.77377
1.28765
9.86347
0.86686
4
1.26448
0.60647
9.74149
0.90482
4
0.75001
1^29015
9.86571
0.86649
5
+1.26291
+0.64202
+9.74325
—0.90460
5
+0.72472
+1.29249
+ 9.86795
—0.86615
6
1.26119
0.67467
9.74501
0.90435
6
0.69770
1.29469
9.87019
0.86584
7
1.25934
0.70512
9.74677
0.90407
7
0.66876
1.29674
9.87242
0.86557
8
1.25735
0.73340
9.74855
0.90375
8
0.63758
1.29864
9.87465
0.86533
9
1.25522
0.75983
9.75033
0.90341
9
0.60382
1.30040
9.87687
0.86512
10
+1.25296
+0.78464
+9.75211
—0.90303
10
+0.56708
+1.30202
+9.87909
—0.86495
11
1.25054
0.80799
9.75390
0.90263
11
0.52676
1.30350
9.88131
0.86482
12
144798
0.83005
9.75570
0.90220
12
0 48216
1.30483
9.88352
0.86472
13
1.24527
0.85093
9.75751
0.90175
13
0.43241
1.30603
9.88572
0.86465
14
1.24241
0.87073
9.75933
0.90127
14
0.37581
1.30709
9.88792
0.86462
15
+1.23940
+0.88955
+9.76116
—0.90076
15
+0.31065
+1.30800
+9.89012
—0.86463
16
1.23624
0.90748
9.76299
0.90023
16
0.23382
1.30878
9.89230
0.86468
17
1.23293
0.92458
9.76484
0.89968
17
0.14021
1.30942
9.89447
0.86477
18
1.22945
0.94091
9.76670
0.89910
18
0.02057
1J50992
9.89663
0.86489
19
1.22581
0.95653
9.76857
0.89850
19
9.85453
1.31028
9.89879
0.86505
20
+1.22201
+0.97148
+9.77045
-0.89788
20
+9.58244
+1.31051
+9 90094
-0.86526
21
1.21803
0.98582
9.77234
0.89723
21
+8.69029
1.31060
9.90309
0.86550
22
1.21388
0.99958
9.77424
0.89657
22
—9.45397
1.31055
9.90522
0.86577
23
1.20957
1.01281
9.77615
0.89589
23
9.79083
1.31036
9.90734
0.86608
24
1.20507
1.02552
9.77808
0.89519
24
9.97817
1.31004
9.90944
0.86643
25
+1.20040
+1.03774 +9.78002
—0.89448
25
—0.10852 -1-1.30958
+9.91153
—0.86682
26
1.19553
1.04951 9.78198
0.89375
26
0.20855
1.30898
991361
0.86724
27
1.19048, 1.06084 9.78394
0.89301
27
0.28969
1.30824
9.91568
0.86770
28
1.18522 1.07177 9.78591
0.89225
28
0.35792
1.30737
9.91773
0 86820
29
1.17977 1.08230 9.78789
0.89149
29
0.41676
1.30635 9.91977
0.86874
30
+1.17410+1.09246 +9.78988
—0.89072
30
—0.46846
+1.30520+9.92179
—0.86931
31
+1.16823 +1.10227 +9.79189
-0.88993
31
—0.51451
+1.3a390+9 92380
-0.86991
226 FIXED STARS, 1855.
For Wuhington Mwn Midnlfbt.
CX)N8TANTS FOR FACILITATINQ THB
REDUCTION OF THE FIXED STARS. |
1855.
/
Log.^.
G.
Log. A.
H.
Log*.
T.
Jan.
1
-lf.27
0J674
228 iV
1.3093
349 3^
—0.2031
0.000
6
1040
0.8563
230 56
1.3078
344 53
0.3615
ojou
11
9.55
0.8468
233 43
1.3059
340 08
04746
0.027
16
8.73
0.8392
236 37
1.3036
335 20
0.5615
0.041
21
7.93
0.8335
239 34
1.3009
330 29
0.6309
0.055
26
— 7.17
0.8298
242 30
1.2979
325 34
—0.6877
0.068
ai
6.44
0.8279
245 24
1.2947
320 36
0.7348
0.082
Feb.
5
5.74
0.8276
248 12
1.2914
315 34
0.7741
0.096
10
5.07
0.8286
250 53
1.2881
310 28
0.8069
0.1 10
15
4.44
0.8306
253 26
1.2849
305 17
0.8343
0.123
20
— 8.84
0.8338
255 49
\J2B19
300 02
—0.8568
0.137 1
25
3.27
0.8363
258 03
1.2792
294 44
0.8749
0.151 ,
M«rch 2 1
2.72
0.8394
260 08
1.2770
289 24
0 8891
0.164 1
7
2.20
0.8424
262 06
1.2752
284 01
0.8995
0.178
12
1.69
0.8450
263 57
1.2739
278 37.
0.9065
0.192
17
— 1.20
0.8471
265 44
1.2732
273 12
—0.9100
0.205
22
0.72
0.8486
267 28
1.2731
267 47
0.9103
0.219
27
— 0.23
0.8495
269 11
1.2737
262 24
0.9074
0.233
April
1
-h 0.26
0.8498
270 54
1.2749
257 OS
0.9012
0.246
6
0.76
0.8496
272 40
1.2766
251 45
0.8916
0.260
11
4- 1^8
0.8489
274 31
1.2787
246 31
—0.8786
0.274
16
1.82
0.8480
276 27
1.2812
241 22
0.8619
0JW7
21
2.38
0.8471
278 29
1.2840
236 17
0.8413
0^1
26
2.97
0.8463
280 37
1.2870
231 16
0.8165
0.315
May
1
3.59
0.8459
282 53
1.2902
226 20
0.7869
0.329
6
+ 4.25
0.8462
285 17
1.2934
221 29
—07519
0.342
11
4.94
0.8475
287 48
1.2965
216 43
0.7105
0.356
16
5.66
0.8501
290 23
1.2994
212 02
0.6614
0-370
21
6.42
0.8542
293 01
1J1021
207 25
0.6027
0.383
26
7.21
0.8599
295 40
1.3045
202 52
0.5313
0.397
31
-h 8.02
0.8672
298 17
1.3066
198 22
—04423
0411
Jan«
5
8.85
0.8762
300 49
1.3083
193 54
0.3266
0424
10
9.70
0.8867
303 15
1.3095
189 29
0.1640
0.438
15
10.57
0.8985
305 32
1.3103
185 05
93960
0452
20
UA4
0.9114
307 39
1.3106
180 43
—9.0426
0.465 1
25
+12.32
0.9251
309 34
1.3104
176 21
+9.7583
0479
30
13.19
0.9394
311 18
1.3098
171 58
oxmi
0493
Joly
5
14.05
0.9540
312 50
1.3087
167 34
0.2795
0.407
10
14.89
0.9686
314 10
1.3072
163 08
04073
0.520
15
15.72
0.9831
315 20
1.3053
158 40
0.5036
0.534
20
+16.52
0.9974
316 20
1.3030
154 10
+0.5798
0348
25
17.29
1.0111
317 11
1.3004
149 36
0.6421
0.561
30
18.03
1.0242
317 54
1.2975
144 58
0 6939
0.575
Aiigiut4
18.74
1.0367
318 31
1.2945
140 16
0.7376
0.589
9
1941
1.0485
319 03
1.2914
135 30
0.7745
0.602
14
4-20.05
1.0596
319 31
1.2883
130 39
+0.8058
0.616 1
19
20.66
1.0699
319 57
1.2852
125 43
0.8321
0.630
24
21.24
1.0795
320 21
1.2823
120 43
0.8541
0.643
29
21.79
1.0884
320 43
1.2797
115 38
0.8722
0.657
Sept
3
22.32
1.0965
321 05
1.2774
110 29
0.8865
0.671
8
+22.83
1.1040
321 28
1.2755
105 16
+0 8974
a684 1
13
23JI3
I.IIIO
321 52
1.2742
100 00
0.9050
0.698
18
23.82
1.1174
322 19
1.2734
94 42
0.9094
0.712
23
24.31
1.1234
322 48
1.2731
89 22
0.9106
0.726
28
24.80
1.1291
323 19
1.2735
84 01
0.9086
0.739
Oct
3
+25.31
1.1346
323 53
1.2745
78 40
+0.9034
0.753
8
25.83
1.1400
324 31
1.2760
73 20
0.8948
0.767
13
+26.37
1.1454
325 12
1.2780
68 02
+0.8827
0.780
'l
FIXED STARS, 1855. 227
For Waahington Maan Midniffht.
CONSTANTS FOE FACILITATING THE REDUCTION OF THE FIXED STARS.
1855.
/
Log.^.
O.
Log. A.
H.
Log. i.
T.
Oct. 18
23
28
Nor. 2
7
+26.93
27.52
28.15
28.81
29.50
1.1508
1.1563
1.1621
1.1682
1.1747
O 1
325 56
326 42
327 30
328 20
329 10
1.2805
1.2833
1.2864
1.2896
1.2929
57 33
52 24
47 18
42 16
+0.8669
0.8470
0.8227
0.7933
0.7581
0.794
0.808
0.821
0.835
0.849
12
17
22
27
Dec 2
+30.23
31.00
31.80
32.62
33.47
1.1816
1.1889
1.1966
1.2045
1.2129
330 01
330 51
331 40
332 27
333 11
1.2961
1.2992
1.3020
1.3045
1.3067
37 18
32 23
27 32
22 44
17 59
+0.7160
0.6655
0.6044
0.5291
0.4336
0.862
0.876
0.890
0.903
0.917
7
12
17
22
27
+34.35
35.24
36.14
37.04
87.94
1.2215
1.2303
1.2393
1.2483
1.2574
833 52
334 29
335 02
335 31
335 56
1.3085
1.3097
1.3104
1.3106
1.3102
13 15
08 33
03 52
859 12
354 32
+0.3062
0.1196
+9.7777
—9.0914
9.9272
0.931
0.945
0.958
0.972
0.986
32
+38.84
1.2665
336 18
1.3093
849 50
—0.1935
0.999
BESSEL'S FORMULJE OF REDUCTION FOR THE FIXED STARS,
WITH DB. PETERS^S COEFFICI]
&NTS, AKD THE NOTATION OF THE CATALOGUE OF
STARS OF THE BRITISH ASSOCIATION.
A == — 20"4451 COS. » COS. ©.
B = — 20".4451 sin. Q.
C = T — 0".34238 sin. ft + 0
+ 0" 00294 sin. (© + a
"00410 sin. 2 ft — 0".0a619 sin. 2 ©.
a® 34') — 0".00405 sin. 2 C + 0".00135 Ml. ( C—
n.
D = — 9^.2286 COS. ft + 0"i)89(
— 0.0886 COS. 2C.
5 COS. 2 ft — 0".5507 COS. 2 © — 0"X)092 COS. (O + a«>° 220
E = — 0".0481 sin. ft + 0".001
4 sin. 2 ft — 0''.0034 sin. 9 Q.
1
a :» COS. a sec. d.
b = sin. a sec. d.
c = 46".0780 + 90"X)560 sin. a
d = COS. a tan. S.
tan. a.
a' = tan. » COS. a — sin. a sin. d.
f s= COS. a sin. d.
c' = 20".0560cos.a.
<P s= — sin. a.
fi' := the annual proper motion in
right asoenaioB.
T rs the time from the beginning of the year in fractional parti of the year.
O sa the son's longitude.
C =: the moon's lonntnde.
ft = the longitude of the moon's ascending node.
» » the obl^uitj of the ecUptic
a sa the star's mean right ascension for the beginning of the year.
^ =s the star's mean declination for the beginmng of the year.
a' =s the star's apparent right ascension at the time r.
^ S3 the star's apparent decimation at the time t.
o* — a = Aa-*-B6-i-Cc + Dd + E + T^
y — a = Aa' -+. B 6' -♦- C c* + Dcf -♦- T/4'.
The followuig formnl« may also be used by pntdng
/= 46"X)780 C.
^cos.G=20"X)560C.
^ sin. G s= D.
t a= A tan. «.
Acos.H«B.
Asm. H«A.
of— a =/+ TM -1- a sin. (G -4- a) tan. a -4- A sin. (H -♦- a) sec *.
y — a = • cos. a + T m' + ^ COS. (G + a) + A COS. (H + a; sin. a.
228
FIXED STARS, 1855.
MEAN PLACES OF 100 PRINCIPAL FIXED STARS, FOR
ii
JANUARY I, 1855.
Sur'aName.
Mag.
Right Ascension.
An. Variation.
Declination.
An. VariulM.
a Andromed^b
2
h. m. a.
0 0 63.97
-f. 3!087
4-28 17 23.3
-I-1§.93
y Pegasi (Algenib)
3.2
0 5 46.37
3.085
4-14 22 38.1
20.05
iSHydri .
3
0 18 3.62
3.292
—78 4 23.1
20.23
a CaSSIOP££
var.
0 32 18.36
3.356
4-55 44 29.2
19.83
iSCeU
2
0 36 18.45
3.016
—18 47 0.1
19.86
a Urs. Min. (Polaris)
2
1 6 29.82
-+-18.117
4-88 32 11.3
+19.23
^Ceti.
3
1 16 46.57
3.000
— 8 55 58.6
18.74
a Eridani (AcJiemar)
1
1 32 18.42
2.238
—57 58 28.2
18.59
a Arietis .
2
1 59 0.44
3.365
4-22 46 28.4
17.29
y Ceti .
3.4
2 35 47.42
3.102
2 37 19.4
15.44
a Ceti
2.3
2 54 42.21
-+. 3.129
4- 3 31 4.7
+14.40
a Persei
2
3 13 59.52
4.243
49 20 26.8
13.25
fl Tauri .
3
3 38 52.31
3.553
4-23 39 11.0
11.54
y* Eridani .
3
3 51 15.91
2.796
—13 55 26.7
10.59
a Tauri {Aldebaran)
1
4 27 36.26
3.436
4-16 12 49.4
7.72
a Auriga (Ct^eUa) .
1
5 5 59.03
4- 4.423
4-45 50 41.8
+ 4.27
fi Orionis (Rigel)
1
5 7 34.23
2.884
— 8 22 22.5
4.54
p Tauri
2
5 17 7.72
3.791
4-28 28 48.3
3.55
d Orionis
2
5 24 36.06
3.066
— 0 24 37.8
3.05
a Leporifl
3
5 26 20.19
2.648
—17 55 46.0
2.94
ff Orionis
2
5 28 51.43
-h 3.044
— 1 17 54.6
+ 2.71
a ColumbsB .
2
5 34 24.05
2.177
—34 9 13.3
2.23
a Orionis
var.
5 47 19.35
3.249
4- 7 22 32.6
+ 1.11
fl Geminorum
3
6 14 11.30
3.636
4-22 34 59.9
— 1.37
a Argus (Canopus) .
1
6 20 44.13
1.330
—52 37 4.7
— 1.81
51 (Hev.) Cephei .
5
6 31 6.10
4-30.650
4-87 15 7.9
— 2.80
a Canis Maj. (Sirius)
1
6 38 45.60
2.646
—16 31 12.8
4.52 1
f Canis Majoris .
2.1
6 52 55.69
2.360
—28 46 40.3
4.58 j
d Geminorum
3.4
7 11 27.65
3.597
4-22 14 41.7
6.16
a* Gbminor. (Castor)
2.1
7 25 20.49
3.841
32 12 6.2
7.37
a Can.Min. {Proqfon)
1
7 31 42.52
4- 3.145
4- 5 35 35.7
— 8.79
p Geminor. (PoUux)
1.2
7 36 26.23
3.681
4-28 22 19.9
8.26
15 Argus .
3
8 1 22.22
2.557
—23 53 20.5
10.06
f HydrsB
3.4
8 39 5.74
3.189
4- 6 56 52.2
12.86
t Ursse Majoris .
3
8 49 15.44
4.123
4-48 36 26.7
13.78
1
c Argus
2
9 13 12.52
4- 1.602
—58 40 3.3
—14.91 '
a Hydrjb .
2
9 20 27.65
2.951
— 8 1 56.8
15.86
1 B Ursffi Majoris .
3
9 23 7.85
4.048
4-52 20 6.3
16.13
f Leonis .
3
9 37 36.82
3.424
24 26 22.0
16.34
, a Leonis (Eegidus)
1.2
10 0 38.72
3.205
4-12 40 26.4
17.40
1 7 Argus
2
10 39 26.75 -h 2.306
—58 55 21.5
—18.74
FIXED STARS, 1855. 229
MEAN PLACES OF 100 PRINCIPAL FIXED STARS, FOR
JANUARY 1, 18S5.
Sur'tName.
Mag.
Bight Aactwioo.
An. Variation.
Declination.
An. Variation.
a Urs^ Majobis
2
h. m. a.
10 54 44.63
-+- 3.782
4-62 31 67.3
-1^^.34
d Leonis
2.3
11 ' 6 23.48
3.208
4-21 19 2.5
19.66
d Hydrae et Crateris
3.4
11 12 5.60
2.997
—13 59 40.3
19.44
fi Leonis .
2
11 41 39.60
3.066
4-15 22 67.1
20.09
y Ursjs Majobis .
2.3
11 46 11.02
3.200
4-54 30 3.2
20.04
P Chameeleontis
5
12 9 56.06
-h 3.312
—78 30 25.3
—20.06
a* Crucis
1
12 18 33.81
3.254
—62 17 39.1
19.94
/SCorvi .
2.3
12 26 46.56
3.132
—22 35 40.0
19.99
12 Canum Venaticorum
3
12 49 14.26
2.822
4-39 6 8.3
19.56
a ViBGiNis {Spica)
1
13 17 33.61
3.162
—10 24 11.0
18.97
ff Ursje Majobis
2
13 41 49.34
-+- 2.351
4-50 2 18.2
—18.14
7 Bootis
3
13 47 46.82
2.862
4-19 7 34.7
18.23
fi Centauri
1
13 53 37.93
4.149
—69 40 14.3
17.71
a Bootis (Arcturus)
1
14 9 2.90
2.734
4-19 56 21.4
18.92
o' Centauri
1
14 29 47.88
4.022
—60 13 53.3
15.09
€ Bootis
2.3
14 38 39.25
4- 2.622
4-27 41 15.5
—15.44
a' LlBBJE .
3
14 42 51.82
-h 3.310
—15 26 10.6
16.28
p Ursje Minobis .
2
14 51 10.67
— 0.268
4-74 44 62.5
14.78
P Librae .
2
16 9 12.54
-h 3.220
— 8 50 41.1
13.60
a CORONJS BOREALIS
2
16 28 32.93
2.539
4-27 12 19.2
12.38
a SerPENTIS
2.3
15 37 7.67
H- 2.954
4- 6 53 5.8
—11.66
C Ursae Minoris
4.5
16 49 20.14
— 2.306
4-78 14 17.9
10.82
/3' Scorpii
2
15 67 0.70
-+- 3.479
—19 24 16.6
10.28
d Ophiuchi
3
16 6 46.00
3.138
— 3 19 2.6
9.63
a ScoBPii (Antares)
1.2
16 20 31.38
3.669
—26 6 21.0
8.47
i| Draconis
3.2
16 22 2.43
-+- 0.821
4-61 50 36.4
— 8.23
a Trianguli Australia
2
16 33 21.44
6.268
—68 46 12.8
7.49
e UrsaB Minoris .
4.5
17 0 5a77
— 6.508
4-82 16 6.6
5.11
a Hebculis .
var.
17 8 2.17
+ 2.734
14 33 32.9
4.46
/S Dbaconis
3.2
17 27 9.46
1.353
52 24 37.4
.2.84
a Ophiuchi .
2
17 28 12.24
+ 2.781
4-12 40 9.1
— 2.96
0- Octantis
6
17 39 3.15
108.561
—89 16 33.2
1.83
y Dbaconis .
2.3
17 53 14.40
1.394
4-61 30 27.4
— 0.62
/A* Sagittarii
4
18 6 5.51
3.587
—21 5 31.6
4- 0.46
d UasiE Minobis .
4.5
18 19 7.06
—19.323
4-86 35 59.2
1.69
a Ltbje ( Vega)
1
18 32 1.71
-+- 2.032
4-38 39 4.6
4- 3.07
fi Lyb£
var.
18 44 43.55
2.216
33 11 49.0
3.87
C Aquilje
3
18 58 44.67
2.755
13 39 6.1
5.03
d AquiLiB •
3.4
19 18 n.i6
3.027
2 49 45.6
6.82
y Aquil^
3
19 39 21.94
2.857
10 16 47.4
8.44
a Aquiljb (Altair)
1.2
19 43 42.45
-+- 2.925
4- 8 29 19.4
4- 9.15
230 FIXED STARS, 1855.
MEAN PLACES OF 100 PRINCIPAL FIXED STABS, FOB
JANUABY 1, 1865.
Sur't Namt.
BUff.
Right
An. VarifttloiL
DtCliDAUOQ.
An. VartoUoo.
p Aquiljb
X Ursae Minoris
a* CaPRICOENI
a Pavonis
a CygNI .
61* Cyoni
f Cygni .
a CePHEI
p Aquarii
p Cephei
f Pegasi .
a Aquarii
a Gruis
C Pegasi
a Pis. AjJS.(FamMaui)
a Peoasi (Markdb)
I Piscium .
y Cephei
4
5
3.4
2
2.1
5.6
3
3.2
3
3
2.3
3
2
3.4
1.2
2
4.5
3.4
19 48 11.40
20 8 32.22
20 10 0.31
20 14 9.18
20 36 29.31
21 0 24.08
21 6 45.98
21 15 6.93
21 23 55.35
21 26 46.35
21 37 3.87
21 58 20.03
21 59 4.47
22 34 13.84
22 49 37.71
22 57 32.41
23 32 29.45
23 33 25.94
- 2.952
—54.650
3.338
4.804
2.044
2.691
2.550
1.439
3.168
0.805
2.951
3.085
3.822
2.990
8.334
2.985
3.112
2.394
4-^2 51.4
-4-88 52 32.3
—12 59 27.0
11 40.0
45 51.0
—57
+38 2 20.1
29 38 3.2
4-61 58 19.8
— 6 12 23.7
4-69 55 28.6
4-9
— 1
—47
4-10
12 44.4
1 20.9
39 37.5
4 32.8
—30 23 22.3
4-14 25 336
4 50 26.6
4-76 49 23.7
4- S.58
10.70
10.81
11.05
12.65
4-17.49
14.53
15.10
15.61
15.69
4-16.31
17.30
17.14
18.69
18.97
4-19.33
19.47
4-20.09
FIXED STARS, 1855.
231
APPARENT PLACES OF
a UBBJE MINORIS {Polmrit),
FOR THE
UPPEE TRANSIT
AT WASHINGTON.
JANUABY.
FKBBUABT.
lUBCH.
AFRHi.
Blmth.
Haath-
K.A.
Dn-Nonk.
B.A.
DMS-JforM.
B.A,
DecJirort*
R.A.
Dec. North.
h. m.
1 5
8§ si
h. m.
1 5
88 3^
b. m.
1 5
88 si
h. m.
1 6
88 si
1
77^88
28*.27
5h61
28'.40
s£50
23',49
23,02
14.57
1
2
77.06
28.40
50.72
28.30
31.89
23.23
23.01
14.22
2
3
76.19
28.51
49.84
28.18
31,31
22,95
23.03
13.90
3
4
75.27
28.61
49.00
28.03
80-78
22,66
23.11
13.59
4
5
74.33
28,69
48.21
27,87
30,30
22.37
23.20
13.28
5
6
73.38
28.75
47.46
27.71
29.89
22,08
23.29
13.02
6
7
72.45
28.80
46.76
27.55
29,52
21.80
23.37
12.74
7
8
71.56
28.83
46.09
27.42
29.18
21.53
23.42
12.49
8
9
70.70
28.85
45.44
27.27
28.85
21.27
23.44
12.22
9
10
69.88
28.85
44.78
27.15
28.50
21.03
23.46
11.96
10
11
69.10
28.88
44.09
27.03
28.14
20.80
23.46
11.66
11
12
68.33
28.91
43.38
26.92
27.75
20.56
23.49
11.36
12
13
67.56
28.95
42.64
26.78
27.33
20,30
23.55
11.05
13
14
66.77
28.99
41.87
26.63
26.90
20,04
23.65
10.71
14
15
65.96
29.05
41.10
26,48
26.48
19,76
23.82
10.39
15
16
65.10
29.09
40.32
26,30
26.09
19.46
24.04
10.06
16
17
64.20
29.13
39.58
26,09
25.73
19.15
24.32
9.75
17
18
63i27
29.14
38.87
26.87
25.42
18,84
24.62
9.46
18
19
62.34
29.13
38.21
25.64
25.18
18,52
24.92
9.18
19
20
61.40
29.12
37.61
25.41
24,97
18,16
24i22
8.91
20
21
60.49
29.08
37.06
25.18
24,82
17,87
25.51
6.66
21
22
59.63
29.01
36.53
24.97
24,70
17,57
25.76
8.41
22
23
59.79
28.94
36.02
24.74
24.57
17,28
25.98
8.15
23
24
58.01
28.87
35.49
24.55
24.43
17,01
26.20
7.89
24
25
57.25
28.80
34.95
24,35
24,25
16,74
26.41
7.61
25
26
56.51
28.74
34.37
24.15
24,06
16,47
26.64
7.30
26
27
56.77
28.70
33.76
23.95
23.85
16,19
26.92
7.02
27
28
56.01
28.64
33.13
23,73
23,63
15,89
27iM
6.70
28
29
54.21
28.61
32.50
23,49
23,41
15.58
27.63
6.39
29
30
53.37
28.55
• •
• •
23,23
15,25
28.06
6.10
30
31
52.50
28.49
• •
23.09
14,91
28.54
5.83
31
32
51.61
28.40
•
• •
23,02
14.67
• •
• •
32
232
FIXED STARS, 1855.
APPARENT PLACES OF a URS^ MINORIS {PolarU), FOR THE
UPPER TRANSIT AT WASHINGTON.
Moaih.
MAY.
B.A.
Due North.
JUNB.
D9C North.
JULY.
B.A.
D9^ North.
AUGUST.
B.A.
D9C North.
Montli.
16
17
18
19
20
21
22
23
24
25
26
27
28
29
80
31
32
h. m.
1 5
28^54
29.04
29.55
30.03
80.50
6
30.94
7
31.35
8
31.76
9
82.17
10
32.60
11
33.07
12
33.59
13
34.17
14
34.79
15
85.45
36.12
36.78
37.42
88.04
38.62
39.17
39.72
40.28
40.87
41.49
42.17
42.90
43.68
44.48
45.28
46.08
46.84
88 31
65'!83
65.57
65.34
65.12
64.92
64.71
64.50
64.28
64.05
63.82
63.55
63.30
63.06
62.82
62.60
62.40
62.22
62.05
61.89
61.73
61.56
61.39
61.20
61.01
60.81
60.61
60.42
60.25
60.11
59.98
69.87
59.78
h. m.
1 5
46'!84
47.58
48.28
48.96
49.63
50.32
51.02
51.78
52.58
53.42
54.29
55.18
56.07
56.92
57.75
58.54
59.29
60.02
60.75
61.48
62.25
63.07
68.93
64.83
65.75
66.68
67.60
68.49
69.35
70.17
70.96
88 31
59.78
59.69
59.61
59.52
59.42
59.30
59.19
59.07
58.94
58.85
58.74
58.68
58.62
58.59
58.57
58.54
58.53
58.50
58.46
58.41
58.36
58.30
58.25
58.22
58.21
58.22
58.25
58.30
58.37
58.44
58.50
b. m.
1 6
10.96
11.72
12.48
13.27
14.08
14.92
15.81
16.74
17.67
18.62
19.53
20.42
21.25
22.04
22.81
23.55
24.29
25.05
25.85
26.68
27.55
28.45
29.36
30.26
31.14
31.97
32.76
33.50
34.21
34.90
35.60
36.32
88 31
58'!50
58.57
58.61
58.64
58.68
58.70
58.75
58.79
58.87
58.96
59.07
59.19
59.33
59.45
59.58
59.70
59.80
59.90
60.00
60.09
60.20
60.33
60.48
60.65
60.85
61.06
61.27
61.48
61.68
61.88
62.06
62.24
b. m.
1 6
36.32
37.07
37.86
38.68
39.51
40.35
41.16
41.94
42.68
43.36
43.99
44.60
45.19
45.80
46.43
47.09
47.78
48.51
49.25
49.99
50.69
51.38
52.00
52.59
53.13
53.63
54.14
54.65
55.19
55.76
56.35
56.97
88 si
2.24
2.41
2.68
2.77
2.88
3J20
3.45
3.71
3.98
4.26
4.51
4.78
5.02
5.25
5.48
5.58
5.82
6.18
6.44
6.73
7.04
7.35
7.69
8.02
8.34
8.66
8.97
9.26
9.54
9.83
10.12
10.42
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
80
81
32
FIXED STARS, 1855.
233
APPARENT PLACES OF
a ITRSM MINOHIS (P^/ora),
FOR THE
UPPER TRAJHSIT
AT WASHIiNGTON.
'
SEPTEMBER.
OCTOBER
^NOVEMBER.
DECEMBER
ihii
B.A.
D«CL Nerth,
E.&.
Dec Karth
JLh,
Dec. AcrYA
H.L
HtC A^rfJi.
K m.
88 ^i
h. m.
O i
h. m.
O. 1
h, m.
o i
1 6
1 7
88 32
1 6
88 32
1 6
88 33'
I
56^97
10t42
8^28
2L26
68.07
ai37
55,84
43.41
1
2
57.55
10.74
8,51
21.68
67.77
33.76
55.18
43.66
2
n
58,19
11,09
8,69
22.10
67-44
34.12
54,55
43.89
3
4
58,76
1L44
8,81
22,51
67.10
a4.47
53.95
44.12
4
5
59,28
11.80
8.89
22,91
66.79
ai.81
53,37
44.36
5
6
59,75
12.18
6.93
23.30
66.50
35.14
52.82
44.60
6
7
60,17
12,55
8.97
23.68
66,24
35,45
52.28
44.86
7
B
60.54 '
12,90
9.00
24.01
65.98
35.78
51.72
45,12
B
9
60,90
13.24
9.07
24,39
; 65.79
36.13
51.12
45.40
9
10
6L24
13.56
9.15
24,75
65.56
36.48
50.47
45.67
10
11
61,62
13.88
9,27
25.11
65.30
36.86
49.79
46,95
11
IS
62,01
14,19
9.40
25,47
65.01
37.24
49.05
46.22
12
13
62,44
14,55
9.53
25,!H7
64.66
37,63
48.28
46.47
13
14
62.90
14.82
9,65
26,26
64,27
38.02
47.^18
46,70
14
15
63,36
15.18
9*75
26.67
63.83
38.40
46.70
46,90
15
16
63,84
15.54
9,79
27.11
63.33
38.75
45.93
47,08
16
n
64.29
15.93
9.78
27.5^4
62.85
39.08
45.19
47.26
17
18
64.70
16,33
9.72
27.96
62.35
39.41
44,48
47,43
18
19
65,06
16.74
9.61
28.39
61,85
39.71
43,81
47.60
19
20
65,37
17,14
9.48
28.78
61.43
40,00
43.14
47.78
30
21
65.64
17.54
9,3^1
29,17
61.02
40.29
42,48
48.95
21
22
65-88
17.93
9.21
29.54
60,63
40.60
41,80
48.15
32
23
66.09
18.32
9.10
29.89
60,23
40.92
41.08
48.35
23
24
66.31
18.68
9.03
30.25
59.83
41.24
40.31
48.55
24
2&
66.54
19.03
8.97
30,61
59,40
41,57
39,50
48.73
25
26
66,80
19.38
8.94
30,97
58.93
41,90
38.63
48.91
26
27
67,08
19.73
j 8.89
31,36
58-39
42,23
37.75
49.06
37
28
67,39
20.09
8,83
31,75
57.80
42,55
36,85
49.19
38
29
67.70
20.46
8,72
32,17
57.17
42.85
35.96
49,30
29
SO
68.00
20.85
8,56
32.58
56.51
43,14
35,10
49,40
30
m
68,28
21,26
8.35
32.99
55.84
43,41
34,27
49.47
31
33
i.
« «
• *
8.07
33.37
' '
■
33.49
49.55
32
30
r
234 FIXED STARS, 1855.
APPARENT PLACES
OF h
URSiE
MINOKIS, FOR
THE
UPPER TRANSIT
AT WASHINGTON.
MoDth.
JANUAKY.
FEBRUARY.
MARCH.
APRIL.
Day or
the
Moaih 1
R.A.
Dec North.
B.A.
Dec. North.
R.A.
DiK. Abr/A
R.A.
X>tc North.
■
h. m
18 18
86 3d
h. m.
18 18
86 35
h. m.
18 18
86 35
h. m
18 19
86 35
1
2
3
4
5
48.47
48.41
48.37
48.36
48.37
50.71
50.36
50.00
49.62
49.24
51.08
51.30
51.53
51.79
52.05
40'.50
40.18
39.87
39.57
39.31
58.49
58.85
59.22
59.60
59.98
34''.22
ai.04
33.88
33.76
33.64
9.37
9.76
10.13
10.47
10.79
32'.56
32.63
32.72
32.82
22.93
4 1
5
II
6
7
8
9
10
48.40
48.46
48.53
48.61
48.68
48.88
48.50
48.15
47.82
47.51
52.31
52.56
52.80
53.01
53.21
39.06
38.83
38.61
38.40
38.17
60.34
60.69
61.02
61.33
61.63
33.55
33.47
33.40
33.33
33.26
11.10
11.40
11.68
11.99
12JJ9
33.02
33.11
33.18
33.25
33.31
6 ■!
7 '
^
10 j
11
12
13
14
15
48.74
48.79
48.82
48.85
48.87
47.19
46.89
46.59
46.27
45.94
53.41
53.61
53.83
54.06
54.32
37.94
37.69
37.43
37.16
36.89
61.91
62.22
62.52
62.86
63.21
33.17
33.07
32.96
32.84
32.74
12.63
12.97
13.82
13.69
14.05
33.37
33.44
33.53
33.65
33.79
11 '
12 '1
13
14 ':
15
16
17
18
19
! 20
48.91
48.96
49.04
49.14
49.27
45.58
45.22
44.85
44.48
44.12
54.60
54.91
55.22
55.55
55.87
36.63
36.38
36.16
35.96
85.78
63.59
63.97
64.36
64.74
65.12
32.65
32.58
32.54
32.51
32.51
14.89
14.72
15.02
15.30
15.57
33.95
84.12
34.31
84.49
84.66
16 !
17 ■
18
19 '
20 1
21
22
23
24
25
49.42
49.59
49.76
49.92
50.07
43.78
43.45
43.15
42.88
42.60
56.18
56.47
56.76
57.02
57.29
35.61
35.46
35.31
35.15
34.98
65.48
65.82
66.15
66.46
66.78
32.52
32.54
32.55
32.55
32.55
15.83
16.09
16.35
16.64
16.93
34.83
84.98
85.11
35.25
35.39
2J li
22
24 ,1
^ 1,
26
27
, 28
29
30
50.22
50.34
50.47
50.60
50.74
42.33
42.06
41.77
41.47
41.16
57.56
57.85
58.16
58.49
31.80
a4.61
34.42
34.22
67.10
67.41
67.79
68.17
68.56
82.54
32.52
32.50
32.49
32.48
17.25
17.57
17.90
18.20
18.49
35.53
35.71
35.90
86.12
86.85
26
27 i
28
29
30
31
32
50.90
51.08
40.83
40.50
• •
• •
68.96
69.37
32.51
32.56
18.76
36.60
31
33
FIXED STARS, 18&5.
235
APPARENT PLACES
OF a
VMBJE
MINORIS, FOK
THE
UPPER TRANSIT AT WABMINGTON-
MAY. 1
JU^E. 1
JULY.
AUGUST.
fhtfuX
Dftf of
the
R.A.
Dec Niirth.
ilA.
ttes. Ni>Tth
Kk.
D&d, Sfftth
R.A.
Dee, North,
h. m.
18 10
86 3o
llr 111
18 19
86 35
18 19
86 35
18 19
86 3d
1
1^70
sd'.eo
2405
44".e7
23.63
54"27
17.59
3.02
I
2
19,01
36.85
24.09
45.16
23.52
51.54
17.36
3,28
2
3
19.22
37.09
24.13
45.44
2:1.42
54.82
17.10
3.54
3
4
19.42
37.31
24.19
45,71
23.32
55.11
16,83
3.81
4
5
19.61
37.55
24.25
45.98
23.24
55.41
16.54
4.09
5
fi
19.80
37.75
24.32
46.2fi
23.14
55.72
16.23
4.36
6
7
20,00
37.95
24.41
46.55
23.03
56.06
15.89
4.62
7
8
20-22
38.14
24.47
46.87
22.90
56.40
15.54
4.86
8
9
20,44
38.31
24..57
47.20
22.75
56.74
15.18
5.08
9
10
20.68
38.56
24.62
47.55
22.56
57.08
14.83
5.28
10
11
20.93
38.79
24.66
47.90
22.37
57.40
14,50
5.46
n '
12
2i;l8
39.05
24.67
48.26
22J6
57.70
14.18
5.63
12
13
2L42
39.33
24.65
48.61
21.94
57,99
13.88
5,81
13
14
21.62
30.62
24.61
48.94
21.73
58.26
13.58
5.98
M
15
21.81
39,92
24.58
49.26
21.54
58.51
13.29
6.17
15
16
21.98
40.22
24.51
40.56
2L36
58,76
12.99
6.^
16
17
22.13
40.52
24.50
49.84
2L19
59.01
12.70
6.60
17
18
22.26
40.79
24.47
50.12
21.03
59.29
12.37
6.82
IB
19
22.37
41.06
21.46
50.40
20.87
59.57
12.01
7,04
19
20
22.51
41.31
24.47
50.67
20.70
59.86
11.63
7.26
20
21
22.65
41.56
24.48
51.00
20.51
60.17
11.23
7.47
21
22
22.80
41.79
24.48
51.33
20.30
60.48
10.82
7.65
22
23
22.97
42.05
24.48
51,67
20.06
60,80
10.40
7.80
23
24
23.14
42.3^2
2L45
52.02
19.79
61.10
9.90
7.94
24
25
23.33
42.59
24.39
52.38
10.51
61.38
9.59
8.07
25
2fi
23.50
42.90
24.30
52.72
10.21
61.66
9.21
8.18
26
27
23.60
43.22
24.18
53.06
18.91
61.90
8.R6
8,30
27
28
23.76
43.56
24.05
53.39
18.63
62, U
8.50
8.43
28
29
23.89
43.90
23.91
53.70
18.35
62.35
8.15
8.56
29
30
23.96
44,2;i
23,77
53.09
18.09
1 62.57
7.80
8.72
30
31
24.01
44.56
23.63
54,27
17.84
62,80
7.44
8,S8
31
32
24.05
41.87
. *
. .
17.59
63.02
7.05
9,05
32
1
236 FIXED STARS, 1855.
APPARENT PLACES
OF B
URS.£
MINORIS, FOB
. THE
UPPER TRANSIT
AT WASHINGTON.
8EFTEMBEB.
OCTOBER.
NOVEMBEa
DBCEMBBB.
Hootb.
Momlt
H.A.
Dae.M>rM.
&A.
DocVortA.
B.A.
Btdferth
R.A.
DK.AM*.
h. m.
18 18
86 3^
h. m.
18 18
86 3d
h. m.
18 18
86 36
h. m.
18 18
86 35
1
67r05
9'.05
bl.86
10'.91
4L31
8'.02
8f.71
60'.92
1
2
66.65
9.22
63.88
10.90
40.98
7.81
81.52
60.61
2
3
66.22
9.37
53.40
10.87
40.67
7.59
81.33
60.81
8
4
65.78
9.51
52.94
10.82
40.24
7.89
31.15
60.02
4
5
65.34
9.62
52.50
10.74
39.91
7.19
30.96
69.78
6
6
64.90
9.72
52.08
10.66
39.69
7.01
80.75
59.51
6
7
64.46
9.78
51.68
10.59
39.27
6.84
30.53
59.24
7
8
64.05
9.85
51.29
10.52
38.94
6.67
30.30
58.96
8
9
63.65
9.91
50.91
10.46
38.59
6.51
80.06
58.68
9
10
63.28
9.97
50.53
10.42
38.22
6.34
29.82
58.86
10
11
62.91
10.03
50.14
10.39
, 37.84
6.15
29.69
58.03
11
12
62.53
10.11
49.73
10.36
37.46
5.95
29.88
67.67
12
13
62.16
10.21
49.31
10.31
37.06
6.72
29.19
67.32
13
14
61.78
10.32
48.86
10.27
36.67
6.47
29.02
56.96
14
15
61.36
10.41
48.39
10.21
36.82
5.20
28.90
56.60
16
16
60192
10.52
47.93
10.13
85.98
4.93
28.79
66.26
16
17
60.46
10.61
47.46
10.03
35.68
4.66
28.68
66.93
17
18
59.99
10.68
47.01
9.89
85.39
4.39
28.57
65.62
18
19
59.51
10.72
46.57
9.76
35.12
4.14
28.47
55.32
19
20
59.04
10.75
46.16
9.61
34.84
3.89
28.85
66.03
20
21
68.58
10.75
45.76
9.47
34.58
3.67
28.22
54.73
21
22
58.14
10.75
45.88
9.33
34.30
3.46
28.07
54.42
22
23
57.72
10.74
45.01
9.20
84.00
8i!3
27.92
64.10
28 1
24
57.30
10.73
44.64
9.10
88.69
8.00
27.79
53.74
^ .
25
56.91
10.74
44.26
9.00
83.37
2.76
27.66
53.38
26
26
56.53
10.76
43.86
8.91
83.05
2.48
27.66
53.01
26
27
56.12
10.79
43.44
8.81
82.74
2.20
27.49
52.63
27
28
55.71
10.83
43.01
8.70
82.45
1.88
27.45
52.25
28
29
5557
10.87
42.58
8.57
82.17
1.57
27.43
51.88
29
80
54.82
10.90
42.15
8.40
31.98
1.24
27.42
61.58
80
31
64.85
10.91
41.72
8J22
81.71
0J2
27.43
51J20
81
32
• •
• •
41.31
8.02
• •
. .
27.43
50.89
82
- 1
FIXED STARS, 1855. 237
AFPABENT FLACES OF THE PRINCIPAL FIXED STABS, FOB THE 1J7FEB
TRANSIT AT WASHINGTON.
8M.rMl
Dir of tha
HaoUi.
a AvDBOmnc.
y
'Pegasi.
[AlgeniL)
fi HjdnB.
R.A.
D9C North.
R.A.
Dec. North,
R.A.
Dtc South.
b. m
o
1
h.
m.
o
.
h. m.
O i
0 0
28
17
0
5
U 22
0 17
-78 H
Jan.
1
a. ■.
52.78 0.12
2^.9
0.8
45.33
a.
0.11
3^.9
II
0.7
63 84 0.86
107'.8 1.1
11
52.66 0.12
26.1
1.1
45.22
0.09
36.2
0.9
62.98 0.83
106.7 1.7
21
52.54 0.11
25.0
1.8
45.13
0.10
35.3
0.9
62.15 0.76
105.0 2.2 !]
102.8 2.6
31
52.43 0.10
23.7
L6
45.03
0.07
34.4
1.0
61.40 0.63
Feb.
10
52.33 0.07
22.2
1.6
44.96
0.05
33.4
0.9
60.77 0.52
100.2 S.I
20
52.26 0.04
20.7
1.6
44.91
0.03
32.5
0.9
60.25 0.84
97.1 8.4
March 2|
52.22 0.00
19.2
1.5
44.88
0.00
31.6
0.7
59.91 0.22
93.7 8.7
12
52.22 0.02
17.7
1.4
44.88
0.03
30.9
0.6
59.69 0.10
90.0 8.9
22
52.24 0.08
16.3
1.1
44.91
0.07
30.3
0.3
59.59 0.06
86.1 4.0
April
1
52.32 0.13
15.2
0.9
44.98
0.11
30.0
0.2
59.65 0.24
82.1 8.8
11
52.45 0.16
14.3
0.6
45.09
0.16
29.8
0.2
69.89 0.41
78.3 8.6
21
52.61 0.22
13.7
0.2
45.25
0.20
30.0
0.5
60.30 0.59
74.7 8.5
May
1
52.83 0.26
13.5
0.2
45.45
0.28
30.5
0.9
60.89 0.69
71.2 8.4
11
53.09 0.29
13.7
0.6
45.68
0.27
31.4
1.2
61.58 0.83
67.8 3.1
21
53.38 0.82
14.3
1.0
45.95
0.80
32.6
1.4
62.41 0.92
64.7 2.8
31
53.70 0.85
15.3
1.4
46.25
0.82
34.0
1.8
63.33 1.01
61.9 2.8
June
10
54.05 0.35
16.7
1.7
46.5«^
0.84
35.8
1.9
64.34 1.10
59.6 1.8
20
54.40 0.86
18.4
1.9
46.91
0.33
37.7
2.1
65.44 1.18
57.8 1.2
30
54.76 0.35
20.3
2.4
47.24
0.83
39.8
2.8
66.62 1.15
56.6 0.6
July
10
55.11 0.38
22.7
2.5
47.57
0.82
42.1
2.2
67.77 1.18
56.1 0.0
20
55.44 0.80
25.2
2.6
47.89
0.29
44.3
2.8
68.90 1.10
56.1 0.7
30
55 74 0.27
27.8
2.6
48.18
0.26
46.6
2.2
70.00 1.01
f 56.8 1.2
Aug.
9
56.01 0.28
30.4
2.6
48.44
0.22
48.8
2.0
71.01 0.89
58.0 1.7
19
56.24 0.19
33.0
2.6
48.66
0.19
50.8
1.9
71.90 0.73
59.7 2.2
29
56.43 0.16
35.8
2.5
48.85
0.15
52.7
1.8
72.68 0.57
61.9 2.6
Sept.
8
56.58 0.11
38.0
2.2
49.00
0.10
54.5
1.5
73.20 0.40
64.5 2.8
18
56.69 0.06
40.2
2.1
49.10
0.07
56.0
1.8
73.60 0.16
67.3 8.0
28
56.75 0.03
42.3
1.8
49.17
0.04
57.3
1.0
73.76 0.03
70.3 8.0
Oct.
8
56.78 0.01
44.1
1.6
49.21
0.00
58.3
0.8
73.73 0.21
73.3 8.0
18
56.77 0.01
45.7
1.4
49.21
0.08
59.1
0.6
73.52 0.39
76.3 2.7
28
56.76 0.07
47.1
1.0
49.18
0.04
59.7
0.4
73.13 0.65
79.0 2.4 i
Nov.
7
56.69 0.09
48.1
0.8
49.14
0.07
60.1
0.2
72.58 0.68
81.4 2.0 i
17
56.60 0.10
48.9
0.5
49.07
0.07
60.3
00
71.90 0.77
83.4 1.6 1
27
56.50 0.11
49.4
0.1
49.00
0.09
60.3
0.2
71.13 0.84
84.9 1.0 :
Dec.
7
5639 0.12
49.5
0.1
4891
0.10
60.1
0.4
70.29 0.89
85.9 0.4
17
56.27 0.12
49.4
0.4
48.81
0.10
59.7
0.6
69.40 0.90
86.3 0.9 ;
27
56.15 0.13
490
0.7
48.71
0.10
69.1
0.6
68.50 0.88
86.1 0.8
37
56.02
48.3
48.61
58.5
67.62
85.3
238
FIXED STARS, 1855.
APPABBNT PLACES OF THE PRINCIPAL FITCED
STARS, FOR THE UPPER |
TRANSIT AT WASHINGTON.
1 Sidereal
a CA88IOPE2.
p CetL
^> CeU. U
Day of ihe
Moolh.
R.A.
Dec North.
R.A.
Dec. South.
K.A.
Dec. Sou/A.
1
h. m.
o
,
h. m.
o
1
h.
m.
O 1
0 32
55 44
0 36
18
46
1
16
8 55
Jan.
1
16.89 0.27
^'.i
'1
0.4
17.83 0.11
72.1
If
0.4
46.12
0.11
66.0 0.6 !
11
16.62 0.26
40.7
0.8
17.72 0.11
72.5
0.1
46.01
0.10
66.6 0.4
i
21
16.36 0.26
39.9
1.8
17.61 0.10
72.6
0.1
•45.91
0.12
67.0 0.3 '
1
31
16.10 0.28
38.6
1.7
17.51 0.09
72.5
0.4
45.79
0.10
67.3 0.2
Feb.
10
15.87 0.20
36.9
2.0
17.42 0.08
72.1
0.6
45.69
0.10
67.5 0.1 .
1
20
15.67 0.16
34.9
2.2
17.34 0.05
71.5
0.9
45.59
0.09
67.4 0.3 .
March 2 |
15.51 0.10
32.7
2.4
17.29 0.03
70.6
1.1
4550
0.06
67.1 0.6 1
12
15.41 0.04
30.3
2.5
17.26 0.00
69.5
1.4
45.44
0.04
• 66.5 0.8 t
22
15.37 0.05
27.8
2.4
17.26 0.04
68.1
1.6
45 40
0.00
65.7 1.0 ||
April
1
15.42 0.09
25.4
2.8
17.30 0.08
66.5
1.9
45.40
0.04
64.7' 1.8 .
|i
11
15.51 0.19
23.1
2.0
17.38 0.12
64.6
2.0
45.44
0.08
63.4 1.5 '
21
15.70 0.27
21.1
1.7
17.50 0 17
62.6
2.3
45.52
0.12
61.9 1.7
May
1
15.97 0.83
19.4
1.2
17.67 0.20
60.3
2.3
45.64
0.17
60.2 1.9
11
16.30 o.8i
18.2
0.8
17.87 0.25
580
2.5
45.81
0.21
58.3 2.1 ||
21
16.69 0.44
17.4
0.2
18.12 0.28
555
2.5
46.02
0.24
56.2 2.2
31
17.13 0.46
17.2
0.1
18.40 0.31
530
2.5
46.26
0.28
54.0 2.8
June
10
17.59 0.49
173
0.8
18.71 0 33
50.5
23
46.54
0.31
51.7 2.3
20
18.0S 0.50
18.1
1.8
19.04 0 34
48.2
2.2
46.85
0.32
49.4 2.3 ,
30
18.58 0.49
19.4
1.7
19.38 0.34
46.0
2.0
47.17
0.32
47.1 2.1 1
July
10
19.07 0.46
21.1
2.2
19.72 0.83
44.0
1.7
47.49
0.34
45.0 2 0 ;
20
19.53 0.48
23.3
2.6
2005 0.32
42.3
1.4
47.83
0.32
43.0 1.7
30
19.96 0.89
25.9
2.8
20 37 0.28
40.9
1.0
48.15
0.29
41.3 1.5
Aug.
9
20.35 0.85
28.7
8.1
20.65 0.27
39.9
0.6
48 44
0.28
39.8 1.2
19
20.70 0.80
31.8
8.2
20 92 0.22
39.3
0.3
48.72
0.21
38.6 0.8
29
21.00 0.24
35.0
8.8
21.14 0.18
39.0
0.1
48.96
0.21
37 8 0.5
Sept.
8
21.24 0.18
38.3
3.4
21.32 0.15
39.1
0.4
49.17
0.18
37.3 0.2
18
21.42 0.12
41.7
8.2
21.47 0.10
39.5
0.7
49.35
0.14
37.1 O.i
28
21.5^4 0.07
44.9
8.3
21.57 0.06
40.2
0.9
49.49
0.10
37.2 0.4
Oct
8
21.61 0.01
48.2
2.9
21.63 0.08
41.1
1.2
49.59
0.08
37.6 0.6 !
18
21.62 0.01
51.1
2.8
21.66 0.00
42.3
1.2
49.67
0.04
38.2 0.8 '
28
21.58 0.09
53.9
2.5
21.66 0.08
43.5
1.8
49.71
0.01
39.0 0.9 J
Nov.
7
21.49 0.18
56.4
2.1
21.63 0.06
44.8
1.2
49.72
0.02
39.9 1.0 i
17
21.36 0.17
58.5
1.8
21.57 0.07
46.0
LI
49.70
0.03
40.9 0.9 1
27
21.19 0.20
60.3
1.8
21.50 0 08
47.1
1.1
49.67
0.05
41.8 1.0
Dec.
7
20.99 0.22
61.6
0.9
21.42 0.10
48.2
0.9
49.62
0.07
42.8 0.9
17
20.77 0.25
62.5
0.4
21.32 0.10
49.1
0.7
49.55
0.09
43.7 0.8
27
20.52 0.26
62.9
0.1
21.22 0.11
49 8
0.5
49.46
0.10
44.5 0.1
37
20.26
62.8
21.11
50 3
49.36
45.2 I
FIXED STARS, 1855.
239
APPARENT PLACES OF THE PRINCIPAL FIXED STARS, FOR THE UPPER |
TRANSIT AT WASHINGTON.
Sidereal
Day of tha
Month.
a Eridant
a
Abietis.
r Ccti.
R.A.
D^Souih.
R.A.
Dec. JVbrtA
RA.
Dec. SurtK.
h. m.
o
1
h.
m.
O * I
h. m.
o *
1 32
57
57
1
58
22 46
2 35
2 37
Jon.
1
19.09 0.31
lorf.o
0.8
60.00
fl.
0.11
32.9 0.2
8. «.
47.31 0.09
N fl
18.3 0.6
11
18.78 0.31
108.3
0.3
59.89
0.12
32.7 0.4
47.22 0.10
17.7 0.6 ;
21
18.47 0.30
108.0
0.7
59.77
0.14
32.3 0.6
47.12 0.11
17.1 0.5
31
18.17 0.30
107.3
1.8
59.63
0.13
31.7 0.6
47.01 0.13
16 6 0.4
Feb.
10
17.87 0.27
106.0
1.8
59.50
0.14
31.1 0.8
46.88 0.14
16.2 0.2
1
20
1760 0.24
10^4.2
2.2
59.36
0.12
30.3 0.8
46.74 0.13
16.0 0.2
March 2|
17.36 0.21
102.0
2.6
59.24
0.11
29.5 0.9
46.61 0.12
15.8 0.1
12
17 15 0.15
99.4
2.9
59.13
0.08
28 6 0.8
46.49 0.10
15.7 0.2
22
17.00 0 10
96.5
3.2
59.05
0.04
27.8 0.7
46.39 0.07
15.9 0.3
April
1
16.90 0.08
93.3
3.5
59.01
0.00
27.1 0.7
46.32 0.03
16.2 0.5
11
16 87 0.06
89.8
8.7
59.01
0.05
26.4 0.4
46.29 0.00
16.7 0.7
21
16.92 0.11
86.1
3.7
59.06
0.09
26.0 0.2
46.29 0.05
17.4 0.9
May
1
17.03 0.19
82.4
3.8
59.15
0.14
25.8 0.0
46.3^4 0.10
18.3 1.2
*
11
1722 0.25
78.6
3.6
59.29
0.20
25.8 0.3
46.44 0.14
19.5 1.4
21
17.47 0 32
75.0
3.4
59.49
0.24
26.1 0.6
46.58 0.18
20.9 1.6
31
17.79 0.37
71.6
3.2
59 73
0.27
26.7 0.9
46.76 0.23
22.4 1.8
June
10
18.16 0.42
68.4
2.9
60.00.0.31
27.6 1.2
46.99 0.27
24.2 1.8
20
18.58 0.46
65.5
2.4
60.31
0.33
28.8 1.4
47.26 0.28
26.0 1.9
30
19.04 0.49
63.1
1.9
60.64
0.35
30.2 1.6
47.54 0.31
27.9 2.0
July
10
19.53 0.4')
61.2
1.4
60.99
0.35
31.8 1.7
47.85 0.32
29.9 1.9
20
20 02 0 51
59.8
0.8
61.34
0.34
33.5 1.9
48.17 0.32
31.8 1.8
30
2053 0.48
59.0
0.2
61.68
0 33
35.4 1.9
48.49 0.32
33.6 1.7
Aug.
9
21.01 0.45
58.8
0.4
62.01
0.32
37 3 2.0
48.81 0.30
35.3 1.5
19
21.46 0.41
59.2
1.0
62.33
0.28
39.3 1.8
49.11 0.29
36.8 1.2
29
21.87 0.35
60.2
1.6
62.61
0.26
41.1 1.8
49.40 0.26
38.0 1.0
Sept
8
22 22 0.29
61.7
1.9
62.87
0.23
42.9 1.7
49.66 0 24
39.0 0.7
18
22.51 0.22
63.6
2.4
63.10
0.19
44.6 1.6
49.90 0.21
39.7 0.5
28
22 73 0.15
66.0
2.6
63.29
0.16
46.2 1.4
50.11 0.18
40.2 0.2
Oct.
8
22.88 O.os
68.6
2.7
63.45
0.13
47.6 12
50.29 0.16
40.4 0.0
18
22.96 0.01
71.3
2.8
63.58
0.10
48.8 i.i
50.45 0.12
40.4 0.2
28
22.97 0.05
74.1
2.8
63.68
0.07
49.9 0.9
50.57 0.10
40.2 0.4
Nov.
7
22.92 0.12
76.9
2.6
63.75
0.03
50.8 0.7
50.67 0.06
39.8 0.6
17
22.80 0.17
79.5
2.4
63.78
0.01
51.5 0.6
50.73 0.04
39.2 0.5
27
22 63 0.21
81.9
2.0
63.79
0.02
52.1 0.4
50.77 0.01
38.7 0.7
Dec.
7
22 42 0.25
83.9
1.6
63.77
0.04
52.5 0.2
50.78 0.01
38.0 0.7
17
22.17 0.28
85.5
1.1
63.73
0 07
52.7 0.0
50.77 0.05
37.3 0.6
27
21.89 0.29
86.6
0.6
63.66
0.09
52.7 0.1
50.72 0.06
36.7 0.7
37
21.60
87.2
63.57
52.6
50.66
36.0
240 FIXED STARS, 1855.
APPARENT PLACES OF THE PRINCIPAL FIXED
STARS, FOR THE UPPEbI
TRANSIT AT WASHINGTON.
Sidereal
a Cbti. 1
a Pbbsbi.
1, TurL i
Day of the
Mouih.
R.A.
Dec. North,
R.A.
Dec. North,
RA.
Dec. MrO.
h.
2
m.
54
i 3i
h. m.
3 13
49
20
h.
3
38
23 39
Jan. 1
42.19
a.
0.08
ff It
4 5 0.6
59.51 0.18
38.7
u
1.0
52.40
a.
0.06
17.0 0.2
11
42.11
0.09
3.9 0.5
59.38 0.17
39.7
0.7
52.34
0.09
17.2 0.0
21
42.02
0.12
3.4 0.5
59.21 0.21
40.4
0.4
52.25
0.11
17iJ 0.1
31
41.90
0.13
2.9 0.4
59.00 0.23
40.8
0.0
52.14
0.14
17.1 0.J
Feb. 10
41.77
0.14
2.5 0.8
58.77 0.24
40.8
0.4
52.00
0.16
16.9 0.2
20
41.63
0.14
2.2 0.2
58.53 0.24
40.4
0.7
51.84
0.17
16.7 0.4
March 2
41.49
0.18
2.0 0.1
58.29 0.28
39.7
r.i
51.67
0.13
16.3 0.5
12
41.36
0.11
1.9 0.1
58.06 0.21
38.6
1.3
51.52
0.15
15.8 0.5
22
41.25
0.09
2.0 0.2
57.85 0.17
37.3
1.6
51.37
0.13
15.3 0.5
April 1
41.16
0.06
2.2 0.6
57.68 0.11
35.8
1.6
51JJ4
0.09
14.8 0.5
11
41.10
0.01
2.7 0.6
57.57 0.06
34.2
1.8
51.15
0.05
14.3 0.4
21
41.09
0.04
3.3 0.9
57.51 0.01
32.4
1.7
51.10
0.01
13.9 0.4
May 1
41.13
0.08
4.2 1.0
57.52 0.08
30.7
1.6
51.09
0.06
13.5 0.3
11
41.21
0.12
6.2 1.3
57.60 0.16
29.1
1.5
61.14
0.09
13.2 0.1
21
41.33
0.17
6.5 1.5
57.75 0.22
27.6
1.2
51.23
0.15
13.3 0.1
31
41.50
0.22
8.0 1.6
57.97 0.29
26.4
1.0
51.38
0.19
13.4 OA
June 10
41.72
0.26
9.6 1.8
58.26 0.83
25.4
0.7
51.57
0.25
13.8 0.5
20
41.97
0.27
11.4 1.9
58.59 0.89
24.7
0.2
51.82
a27
14.3 0.8
30
42.24
0.31
13.3 1.8
58.98 0.42
24.5
0.0
52.09
0.81
15.1 0.9
July 10
42.55
0.30
15.1 1.9
59.40 0.44
24.5
0.4
52.40
0.32
16.0 I.I
20
42.85
0.84
17.0 1.8
59.84 0.46
24.9
0.8
52 72
0.84
17.1 1.1
30
43.19
0.81
18.8 1.6
60.30 0.46
25.7
1.0
53.06
0.34
18.2 ij
Aug. 9
43.50
0.81
20.4 1.5
60.76 0.45
26.7
1.4
53.40
0.35
19.5 ij
19
43.81
0.29
21.9 1.2
61.21 0.48
28.1
1.6
53.75
0.83
20.8 1.2
29
44.10
0.28
23.1 1.0
61.64 0.42
29.6
1.8
M.08
0.32
22.0 ta
Sept 8
44.38
0.25
24.1 0.8
62.06 0.38
31.4
2.0
54.40
0.30
23.3 i.i
18
44.63
0.22
24.9 0.4
62.44 0 36
33.4
2.0
64.70
0.27
24.4 1.1
28
44.85
0.20
25.3 0.2
62.80 0.31
35.4
2.2
54.97
0.27
25.5 1.0
Oct 8
45.05
0.18
25.5 0 0
63.11 0.28
37.6
2.2
55.24
0.28
26.5 0.9
18
45.23
0.14
25.5 0.2
63.39 0.24
39.8
2.3
55.47
0.21
27.4 0.8 !
28
45.37
0.11
25.3 0.8
63.63 0.20
42.1
2.2
55.68
0.18
26.2 0.7
Nov. 7
45.48
0.09
25.0 0.6
63.83 0.15
44.3
2.1
55.86
0.15
28.9 0.1
17
45.57
0.06
24.5 0.6
63.98 0.10
46.4
2.1
56.01
0.11
30.0 0.0
27
45.63
0.02
23.9 0.7
64.08 0.05
48.5
1.9
66.12
ao8
30.0 0.5
Doc. 7
45.65
0.00
23.2 0.6
64.13 0.00
50.4
1.7
56J20
0.04
30.5 0.8
17
45.65
0.08
22.6 0.7
64.13 0.05
62.1
1.5
56.24
0.00
30.8 0.S
27
45.62
0.06
21.9 0.6
64.08 0.10
53.6
1.2
66.24
0.03
31.1 0.2
37
45.56
21.3
63.98
5-4.8
56.21
_-
31.3
FIXED STARS, 1855. 241
APPARENT PLACES OF THE PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
Sidereal
Day of the
MoDlh.
rl Eridani
a Tauri.
(Aldebaran.)
a AURIOJE.
(Capella.)
ILA.
Dec South.
R.A.
Dec. North.
B.A.
Dec. North
h. m
o
,1
h. m.
O 1
h. m.
O 1
3 61
13 55 1
4 27
16 12
5 5
45 50
a. ■.
«
N
a. 0.
-" - "
8. S.
II M
Jan. 1
16.32 0.06
29.4
1.3
36.57 0.02
54.1 0.1
59.63 0.01
.50.7 1.4
11
16.26 0.10
30.7
1.0
36.55 0.05
54.0 0.1
59.62 0.03
52.1 1.2
21
16.16 0.12
31.7
0.9
36.50 0.10
53.9 0.2
59.59 0.11
53.3 1.1
31
16.04 0.15
32.6
0.6
36.40 0.18
53.7 0.2
59.48 0.17
54.4 0.9
Feb. 10
15.89 0.16
33.2
0.3
36.27 0.14
53.5 0.2
59.31 0.20
55.3 0.6
20
15.73 0.18
33.5 0.0
36.13 0.17
53.3 0.2
59.11 0.22
55.9 0.3
March 2
15.55 0.16
33.5
0.3
35.96 0.16
C3.1 0.2
58.89 0.24
56.2 0.0
12
15.39 0.15
33.2
0.6
35.80 0.16
52.9 0.2
58.65 0.24
56.2 0.2
22
15.24 0.13
32.6
0.9
35.64 0.14
52.7 0.1
58.41 0.23
56.0 0.6
April 1
15.11 0.10
31.7
1.1
35.50 0.11
52.6 0.1
58.18 0.20
55.4 0.8
11
15.01 0.07
30.6
1.4
35.39 0.08
52.5 0.1
57.98 0.15
54.6 1.0
21
14.94 0.03
29.2
1.8
35.31 0.05
52.4 0.1
67.83 0.11
53.6 1.2
May 1
14.91 0.01
27.4
1.9
35.26 0.01
52.5 0.2
57.72 0.05
52.4 1.8
11
14.92 0.06
25.5
2.1
35.25 0.05
52.7 0.8
57.67 0.00
51.1 1.4
21
14.98 0.10
23.4
2.2
35.30 0.09
53.0 0.4
57.67 0.07
49.7 1.8
31
15.08 0.15
21.2
2 8
35.39 0.14
53.4 0.6
57.74 0.13
48.4 1.8
June 10
15.23 0.20
18.9
2.4
35.53 0.19
54.0 0.8
57.87 0.20
47.1 1.2
20
15.43 0.23
16.6
2.4
35.72 0.22
54.8 0.9
58.07 0.25
45.9 1.0
30
15.66 0.26
14.1
2.3
35.94 0.26
55.7 1.0
58.32 0.29
44.9 0.8
July 10
15.92 0.28
11.8
2.3
36.20 0.28
56.7 1.0
58.61 0.83
44.1 0.6
20
16.20 0.29
9.5
2.0
86.48 0.29
57.7 1.1
58.94 0.36
43.5 0.4
30
16.49 0.80
7.5
1.7
36.77 0.31
58.8 1.1
59.30 0.89
43.1 0.2
Aug. 9
16.79 0.80
5.8
1.4
37.08 0.31
59.9 1.1
59.69 0.41
42.9 0.0
19
17.09 0.30
4.4
1.0
37.39 0.81
61.0 0.9
60.10 0.42
42.9 0.2
29
17.39 0.29
3.4
0.6
37.70 0.32
61.9 0.9
6052 0.42
43.1 0.4
Sept. 8
17.68 0.28
28
0.2
38.02 0.81
62.8 0.7
60.94 0.43
43.5 0.5
18
17.96 0.27
2.6
0.2
38.33 0.29
63.5 0.6
61.37 0.42
44.0 0.8
28
18.23 0.25
2.8
0.6
38.62 0.29
64.1 0.4
61.79 0.40
44.8 0.9
Oct. 8
18.48 0.21
3.4
1.0
38.91 0.26
64.5 0.8
62.19 0.38
45.7 1.0
18
18.69 0.20
4.4
1.2
39.17 0.25
64.8 0.2
62.57 0.87
46.7 1.1
28
18.89 0.17
5.6
1.5
39.42 0.28
65.0 0.0
62.94 0.35
47.8 1.8
Nov. 7
19.06 0.14
7.1
1.6
39.65 020
65.0 0.0
63.29 0.32
49.1 1.3
17
19.20 0.11
8.7
1.7
39.85 0.16
65.0 0.1
63 61 0.26
50.4 1.5
27
1931 0.06
10.4
1.7
40.01 0.18
64.9 0.1
63.87 0.22
51.9 1.4
Dec. 7
19.37 0.03
12.1
1.7
40.14 0.08
64.8 0.2
64.09 0.17
53.3 1.5
17
19.40 0.01
13.8
1.5
40.22 0.05
64.6 0.2
64.26 0.11
54.8 1.5
27
19.39 0.03
153
1.4
40.27 0.01
64.4 0.2
64.37 0.05
56.3 1.4
37
19.36
16.7
40.28
64.2
64.42
57.7
31
242 FIXED STARS, 1855.
APPABENT PLACES
OF THE PRINCIPAL FIXED
STABS, FOB THE DFPEB ||
TRANSIT AT WASHINGTON.
Sidered
8 Obiohis.
/iTAinu.
9 OSIONIB.
R.A.
DocSmkA.
B.A.
Dec North.
R.A.
Dtc South.
b.
5
DL
7
'8 2i
h. m.
5 17
28
26
h. m.
5 24
6 24
Jan. 1
34.78
a.
0.01
20'.9 i'.4
a. •.
8.18 0.03
5I.9
U
0.4
36.63 0.02
34".7 f.l
11
34.79
0.04
22.3 1.3
8.21 0.02
55.3
0.5
36.65 0.03
35.8 0.9
21
34.75
0.08
23.6 1.0
8.19 0.06
55.8
0.4
36.62 0.06
36.7 0.8 1
31
34.67
0.11
24.6 0.8
8.13 0.11
56.2
0.3
36.56 0.10
37.5 0.7
Feb. 10
34.56
0.14
25.4 0.7
8.02 0.14
56.5
0.2
36.46 0.13
88.2 0.6
20
34.42
0.16
26.1 0.8
7.88 0.16
56.7
0.2
36.33 0.15
38.7 OJ
March 2
34.26
0.17
26.4 0.2
7.72 0.18
56.9
0.0
36.18 0.17
89.0 0.2
12
34.09
0.17
26.6 0.2
7.54 0.18
56.9
0.1
36.01 0.17
39.2 0.0
22
33.92
0.17
26.4 0.3
7.36 0.18
56.8
0.3
35 84 0.17
39.2 0.2
April 1
33.75
0.15
26.1 0.7
7.18 0.16
56.5
0.3
35.67 0.15
39.0 0.4 1
11
83.60
0.12
25.4 0.8
7.02 0.13
56.2
0.4
35.52 0.13
38.6 o-A
21
33.48
0.09
24.6 1.1
6.89 0.10
55.8
0.4
35.39 0.11
38.0 0.7
May 1
33.39
0.05
23.5 1.4
6.79 0.05
55.4
0.4
35.28 0.06
37.3 0.9 I
11
33.34
0.01
22.1 1.5
6.74 0.00
55.0
0.4
35.22 0.02
36.4 1.1
21
33.33
0.08
20.6 1.8
6.74 0.05
54.6
0.4
35.20 0.03
85.3 1.8
31
33.36
0.08
18.8 1.9
6.79 o.ie
54.2
0.3
35.23 0.07
84.0 1.4 1
June 10
33.44
0.18
16.9 2.0
6.89 0 15
53.9
0.2
35.30 0.12
32.6 1.6 1
20
33.57
0.17
14.9 2.1
7.04 0.20
53.7
0.0
35.42 0.16
31.0 1.6 :
30
33.74
0.20
12.8 2.0
7.24 0.24
53.7
0.0
35.58 0.20
29.4 1.6
July 10
33.94
0.28
10.8 2.0
7.48 0.28
63.7
0.2
35.78 0.22
27.8 1.6 '
20
34.17
0.26
8.8 1.9
7.76 0.29
58.9
0.2
36.00 0.26
26.2 1.6
30
34.43
0.28
6.9 i.fl
8.05 0.31
54.1
0.4
36.26 0.28
24.7 1.4
Aug. 9
34.71
0.29
6.3 1.4
8.36 0.32
54.5
0.4
36.54 0.28
28.3 1.2
19
35.00
0.28
3.9 M
8 68 0.82
54.9
0.4
36.82 0.28
22.1 0 9
29
35i28
0.27
2.8 0.8
9.00 0.85
55.3
0.4
37.10 0.80
21,2 0.7
Sept 8
35.55
0.30
2.0 0.8
9.35 0.85
55.7
0.5
37.40 0.80
20.5 0.4
18
35.85
0.29
1.7 0.0
9.70 0.84
56.2
0.4
37.70 0.80
20.1 0.1
28
36.14
0.29
1.7 0.8
10.04 0.83
56.6
0.^
38.00 0.80
20.0 0.2
Oct. 8
36 43
0.27
2.0 0.8
10.37 0.88
57.0
0.4
38.30 0.80
20.2 0.5
18
36.70
0.26
2.8 1.0
10.70 0.80
67.4
0.4
38.60 0.28
20.7 0.8
28
36.96
0.24
3.8 1.8
11.00 0.80
57.8
0.4
38.88 0.24
21.5 1.0
Nov. 7
37.20
0.21
5.0 1.5
11.30 0.27
58.2
0.4
39.12 0.23
22.5 1.1
17
87.41
0.18
6.5 1.6
11.57 0.23
58.6
0.4
39.85 0.19
23.6 1.2
27
37.59
0.14
8.1 1.7
11.80 0.19
69.0
0.4
39.54 0.17
24.8 1.8
Dec. 7
37.78
0.10
9.8 1.7
11.99 0.15
69.4
0.4
39.71 0.13
26.1 IJ
17
37.83
0.07
' 11.6 1.6
12.14 0.10
69.8
0.5
39.84 0.09
27.4 1.8
27
37.90
0.03
18.1 1.6
12.24 0.06
60.3
0.5
39.93 0.04
28.7 1.2
37
87.93
14.6
12.30
60.8
39.97
29.9
FIXED STARS, 1855. 243
AFFA&ESrr PLACES OF THE PRINCIPAL FIXED tiTAHS, FOR THE UiTEB
TRANSIT AT WASHINGTON.
Shkml
tM hcpons.
1 OEtOJilfl' 1
a
Colurabio.
[LA.
The SGUtA. 1
RA.
Due, South.
R.A.
Dbc SituiA,
h. ^n.
o
i
h. in. 1
c 1
b.
m
o t
5 26
n
55
5 28
1 17
5
34
34 8
J»a.
L
20.90 0.D1
44.7
ti
1*9
a c.
51.94 0,03
H it
50.8 1*1
25,12
0.02
7I.9 24
[
n
20-91 0,04
46.6
1,7
51.97 O.oi!
51.9 1.1
25,10
0,06
75.4 2.3
21
20.87 0,08
48.3
1.4
5 J. 96 O.ot;
53.0 0.9
25.04
o.u
77.7 2.0
31
20.79 oji
49.7
L2
51.89 0.o«
53.9 tK8
24.93
0.1*>
79.7 1*7
Feb.
10
20.68 oa5
50.9
0,9
51.81 0.12
54,7 0.6
24.77
0,1£$
81.4 1.2
20
20.50 oae
51.8
0.6
51,69 0.15
55.3 0*5
24,59
0.21
82.6 0.8
March 2|
20.37 0.19
52,1
0.3
51.5-1 0*16
55.8 0,3
24.38
0.2S
83.4 0.4
12
20.18 0.19
52,7
0.1
51,38 0.17
56,1 0*1
24.15
0.24
83.8 0.1
22
19.99 0.18
52.6
0.1
51.21 0.17
56.2 0.1
23.91
0.23
83.7 0.S
April
1
19.81 0.17
52.2
0.8
51.04 0.16
56.1 OS
23.68
0.21
83.2 1*0
11
19.64 0.15
51,4
1.0
50.89 0.13
55.8 0,5
23.47
0.20
82.2 L4
'
21
19.49 o.ii
50.4
1.4
50.76 0.09
55.3 0.6
23.27
0.17
80.8 KB
May
1
19.37 007
49,0
1.7
50.67 0 06
54.7 0.9
23.10
0.13
79.0 2,1
11
19 30 0 03
47.3
1.0
50,61 o,oa
53,8 1*1
22.97
0.07
76.9 2.4
21
19.27 0.00
45.4
2.1
50.58 0,02
52.7 1,2
22.90
0.02
74.5 2.S I
31
19.27 0.05
433
2.3
50.60 0.06
51.5 1,4
22.88
0.02
71.7 2.9
June
10
19,32 ti.io
41.0
2,4
50.66 0,12
50.1 1.6
22.90
0.07
68.8 3.1
1 11
20
19.42 0.14
38.6
2.5
50.78 0.16
48.5 1,6
22.97
0.13
65.7 3.1
i'
30
19.56 0.19
36.1
2.4
50.94 0,19
46.9 1.7
23.10
0.18
62.6 S.1
July
10
19.75 0.21
33.7
2.4
51.13 0,22
45.2 1.6
23.28
0<22
59.5 2.9
20
19.96 023
31.3
2,2
51.35 0.215
43.6 1.6
23.50
0.25
56.6 2.7
30
20.21 0.26
29,1
1.9
51.60 0 26
42.0 1.5
23.75
0.27
53,9 2,4
Aug,
9
20.47 0.29
27.2
1.0
51.86 0.29
40.5 1.3
24.02
0.30
51.5 1.9
o
19
20.76 0.29
25.6
1.3
52,15 0,29
39.2 1.1
24.32
0,32
49.6 1.5
29
21.05 aso
24.3
0.S
52,44 o,ao
38.1 0.8
24.64
0.33
48.1 0.9
Sept
8
21.35 0.31
23.5
0.4
52.74 0.30
37.3 0.&
24.97
0.S2
47.2 0*4
18
21.66 0.30
23.1
O.l
53.04 0.29
36.8 0.2
25.29
0.83
46.8 0.2
28
21.96 0.29
23.2
0.5
53,33 0.29
36.6 0.2
25.62
0.32
47.0 0.7
Ocst.
8
22.25 0.28
23.7
1.0
53.62 0.28
36.8 0.4
25.94
0.30
47,7 1,«
18
22.53 0.36
24.7
h4
53.90 0.26
37.2 0.7
26,24
0.28
49,0 1.8
28
22.79 0.24
26.1
1.6
54.16 0.S&
37,9 0.9
26.52
0*25
50.8 2.2
Nov.
7
23.03 0*21
27.7
1.9
54.41 0.22
38.8 i.i
26.77
0.22
53.0 2.5
17
23.24 0.18
29.6
2.1
54.63 0.20
39.9 1.2
26,99
0.19
55.5 2,7
27
23.42 0.15
31.7
2.2
54.83 a.n
41,1 1.4
27.18
0.15
58.2 2,9
'!
Dec.
7
23.57 0.12
33,9
2.2
55.00 0,15
42.5 i.s
; 27,33
0.10
61.1 2.9
17
23.69 0.08
36.1
2.2
55.13 0.09
43.8 1.3
27.43
0.05
64.0 2.8
27
23.77 o.OS
38,3
2,0
55.22 0.06
45.1 1.3
27.48
0.01
mJ^ 2*7
37
23.80
40.3
55.28
46.4
27.49
69.5
/
244 FIXED STABS, 1855.
APPARENT PLACES
OF THE PRINCIPAL FIXED
STARS, FOR THE UPPER 1
TRANSIT AT WASHINGTON.
SiderMl
Dtty of ih0
MoQlb.
a Orionib.
/< Qeminoram.
a Aignt.
It A.
Dec. yoHh.
R.A.
Dec. AorCA.
R.A
Dec SmcIA. I
h. in.
0
1
h. m.
0
,
h.
m.
0 1
5 47
7
li
6 14
22 35
6
20
52 36
Jan.
1
n 8.
19.88 0.05
3d!9
II
0.7
11.86 0.08
S.2
0.0
45.99
a.
0.02
66.9 8.S 1
11
19.93 0.01
36.2
0.7
11.94 0.04
5.2
0.2
45.97
0.09
64.2 3.0 1
21
19.94 0.04
35.5
0.5
11.98 0.02
5.4
0.2
45.88
0.15
67.2 2.7 i
31
19.90 008
35.0
0.4
11.96 0.05
5.6
0.2
45.73
0.21
69.9 2.4 1
Feb.
10
19.82 0.11
34.6
0.8
11.91 0.10
5.8
0.2
45.52
0.26
72.3 2.0;
20
19.71 0.14
34.3
0.2
11.81 0.14
6.0
0.2
45.26
0.30
74.3 1.5'
March 2I
19.57 0.15
34.1
0.1
11.67 0.15
6.2
0.2
44.96
0.33
75.8 1.0
12
19.42 0.17
aio
0.0
11.52 0.17
6.4
0.2
44.63
0.35
76.8 0.6:
22
19.25 0.17
34.0
0.0
11.35 0.18
6.6
0.1
44.28
0.86
77.4 0.1
April
1
19.08 0.15
34.0
0.3
11.17 0.17
6.7
0.0
43.92
0.85
77.5 0.5
11
18.93 0.14
34.3
0.3
11.00 0.15
6.7
0.1
43.57
0.88
77.0 1.0
21
18.79 0.10
34.6
0.4
10.85 0.13
6.6
0.0
43.24
0.80
76.0 1.5
May
1
18.69 007
35.0
0.6
10.72 0.09
6.6
0.1
42.94
0.26
74.5 1.9
J
11
18 62 0.03
35.6
06
10.63 0.05
6.5
0.1
42.68
0.21
72.6 2.4
21
18.59 O.Oi
36.2
0.8
10.58 0.00
6.4
0.0
42.47
0.16
70.2 2.8 j
31
18.60 0.06
37.0
0.9
10.58 0.04
6.4
0.0
42.31
0.10
67.4 8.1 i
June
10
18.66 0.10
37.9
1.0
10.62 0.09
6.4
0.0
42.21
0.03
64.3 s.sl
20
18.76 0.15
38.9
1.1
10.71 0.13
6.4
0.1
42.18
0.03
61.0 S.4
30
18.91 0.18
400
1.2
10.84 0.18
6.5
0.1
42.21
0.10
57.6 8.41
July
10
19.09 0.21
41.2
1.1
11.02 0.21
6.6
0.2
42.31
0.16
54.2 8.8,
20
1930 0.24
42.3
1.1
11.23 0.24
6.8
0.1
42.47
0.22
50.9 8.1
30
19.54 0.27
43.4
1.0
11.47 0 27
6.9
0.2
42.69
0.27
47.8 2.8
Aug.
9
19.81 0.28
444
0.9
11.74 0.29
7.1
0.2
42.96
0.81
45.0 2.5
19
20.09 0.29
45.3
0.7
12.03 0.30
7.3
0.1
43.27
0.85
42.5 2.01
29
20.38 0.31
460
0.5
12.33 0.82
7.4
0.0
43.62
0.88
40.5 1.5!
Sept
8
2069 0.30
46.5
0.3
12.65 0.32
7.4
0.1
44.00
0.40
39.0 0.9 j
18
20.99 0.30
46.8
0.1
12.97 0.33
7.5
0.1
44.40
0.41
38.1 0.2'
28
21.29 030
46.9
0.1
13.30 0.84
7.4
0.2
44.81
0.41
37.9 0.4
Oct
8
21.59 0.29
46.8
0.4
13.64 0.32
7.2
0.2
45.22
0.41
38.3 1.0'
18
21.88 0.29
46.4
0.6
13.96 0.82
7.0
0.8
45.63
0.89
39.3 1.6
28
22.17 0.27
45.8
0.7
14.28 0.81
6.7
0.2
46.02
0.85
40.9 2.2'
Nov.
7
2244 0.24
45.1
0.8
14.59 0.29
6.6
0.3
46.37
0.81
43.1 2.7'
17
22.68 0.22
44.3
0.9
14.88 0.26
6.2
0.8
46.68
0.27
45.8 8.0
27
22.90 0 19
43.4
1.0
15.14 0.23
6.9
0.2
46.95
0.21
48.8 8.8
Dec.
7
23.09 0.16
42.4
0.9
15.37 0.21
6.7
0.1
47.16
0.15
52.1 8.4
17
23 25 0.11
41.5
0.9
15.58 0.16
5.6
0.1
47.31
0.09
55.5 8.4 '
27
2336 008
40.6
0.8
15.74 0.11
5.5
0.1
47.40
0.02
58.9 8.4 ,
37
23.44
39.8
1585
5.6
47.42
62.3
1
FIXED STARS, 1855. 245
APPARENT PLACES OF THE PRINCIPAL FIXED
STARS, FOR THE UPPER 1
TRANSIT AT WASHINGTON.
SiderMl
Day of the
Month.
51 (Her.) Ccphei.
a Canis Majorib.
{Siriui.)
t Canis Majoris.
R.A.
Dec. North.
R.A.
Doc South.
R.A.
Dec South,
h. m.
6 30
o <
87 14
h.
6
38
o
16 1
3d
h. m.
6 52
28 46
Jan. 1
s •.
87.89 0.49
74.7 l\
46.37
a.
0.07
67.9
n
2.1
56.62 0.07
34.3 2.7
11
88.38 0.45
TI.S 8.1
46.44
0.03
70.0
2.0
56.69 0.03
37.0 2.6 1
21
87.93 1.82
80.9 3.0
46.47
0.02
72.0
1.9
56.72 0.03
39.6 2.4
31
86.61 2.13
83.9 2.7
46.45
0.07
73.9
1.7
56.69 0.08
42.0 2.1
Feb. 10
84 48 2.86
86.6 2.4
46.38
0.10
75.6
1.8
56.61 0.12
44.1 1.8
20
81.62 8.44
89.0 1.9
46.28
0.14
76.9
1.1
56.49 0.15
45.9 1.5
March 2
78.18 3.84
90.9 1.4
46.14
0.16
78.0
0.7
56.34 0.18
47.4 .1.1
12
74.34 4.17
92.3 0.8
45.98
0.18
78.7
0.4
56.16 0.20
48.5 0.7
22
70.17 4.20
93.1 0.2
45.80
0.19
79.1
0.1
55.96 0.22
49.2 0.2
April 1
65.97 4.06
93.3 0.4
45.61
0.18
79.2
0.1
55.74 0 21
49.4 0.2
11
61.91 8.86
92.9 0.9
45.43
0.17
79.1
0.5
55.53 0.20
49.2 0.6
21
58.05 8.50
92.0 1.5
45.26
0.15
78.6
0.9
55.33 0.19
48.6 0.9
May 1
11
51.55 2.99
90.5 2.0
45.11
0.13
77.7
1.2
55.14 0.16
47.7 1.3
51.56 2.34
88.5 2.4
44.98
0.09
76.5
1.5
54.98 0.18
46.4 1.7
21
49.22 1.61
86.1 2.8
44.89
0.05
75.0
1.7
54.85 0.09
44.7 2.0
31
47.61 a82
83.3 8.0
44.84 0.01
73.3
1.9
54.76 0.04
42.7 2.3
June 10
46.79 0.01
80.3 3.2
44.83
0.08
71.4
2.0
54.72 0.00
40.4 2.5
20
46.80 0.76
77.2 3.1
44.86
0.07
69.4
2.1
54.72 0.04
37.9 2.6
30
47.56 1.49
74.1 8.1
44.93
0.11
67.3
2.2
54.76 0.09
35.3 2.7
July 10
49.05 2.26
71.0 8.0
45.04
0.15
65.1
2.2
54.85 0.18
32.6 2.7
20
5L31 2.98
68.0 2.8
45.19
0.19
62.9
2.1
54.98 0.17
29.9 2.6
30
54.29 3.63
65.2 2.5
45.38
0.21
60.8
1.9
55.15 0.21
27.3 2.4
Aug. 9
19
57.92 4.18
62.7 2.1
45.59
0.28
58.9
1.6
55.36 0.23
24.9 2.1
62.13 4.64
60.6 1.8
45.82
0.25
57.3
1.8
55.59 0.26
22.8 1.7
29
66.74 5.00
58.8 1.4
46.07
0.27
56.0
1.0
55.85 0.28
21.1 1.8
Sept 8
71.74 5.25
57.4 0.9
46.34
0.29
55.0
0.6
56.13 0.80
19.8 0.8
^ 18
76.99 5.80
56.5 0.5
46.63
0.30
54.4
0.0
56.43 0.81
19.0 0.8
28
82.38 5.48
56.0 0.1
46.93
0.31
54.4
0.5
56.74 0.32
18.7 0.2
Oct. 8
87.81 5.54
56.1 0.5
47.24
0.30
54.9
0.9
57.06 0.31
18.9 0.7
18
93.35 5.84
56.6 0.9
47.54
0.80
55.8
1.2
57.37 0.31
19.6 1.2
28
98.69 5.04
57.5 1.5
47.84
0.29
57.0
1.5
57.68 0.30
20.8 1.7
Nov. 7
103.73 4.62
59.0 1.8
48.13
0.26
58.5
1.8
57.98 0.28
22.5 2.1
17
108.35 4.10
60.8 2.2
48.39
0.24
60.3
2.1
58.26 0.26
24.6 2.5
27
112.45 8.57
63.0 2.6
48.63
0.22
62.4
2.8
58.52 0.23
27.1 2.7
Dec. 7
116.02 2.85
65.6 2.8
48.85
0.19
64.7
2.4
58.75 0.20
29.8 2.9
17
118.87 1.98
68.4 8.1
49.04
0.15
67.1
2.4
58.95 0.15
32.7 2.9
27
120.85 1.05
71.5 3.1
49.19
0.10
69.5
2.8
59.10 0.10
35.6 2.8
37
121.90
74.6
49.29
71.8
59.20
38.4
246 FIXED STARS, 1855.
AFPARKNT PLACES (
)F THE PRINCIPAL FIXED
STAHS, FOB THE UPPER 1
TRANSIT AT WASHINGTON.
aikiMi
D>r oTllM
Hmtb.
t Q«imnonuii.
a* Qeminorum.
(Gutor.)
a Cawis Minokib. 1
{Proofon.) 1
E.A.
Dec North,
R.A
Dec North.
R.A.
Dec North,
h. m.
o
1
h. m.
o
1
h.
m.
o f
7 11
22
14
7 25
32
12
7
31
5 35
Jan. 1
28.24 0.14
4^.0
0.2
21.19 0.17
09''.6
0.6
43.01
8.
0.15
46a 1.2
11
28.38 0.09
45.8
0.0
21.36 0.11
10.2
0.7
43.16
0.09
38.9 1.0
21
28.47 0.04
45.8
0.2
21.47 0.06
10.9
0.7
.43.25
0.04
37.9 0.9 '
»1
28.51 0.01
46.0
0.3
21.53 0.01
11.6
0.8
43.29
0.00
37.0 0.7
Feb. 10
28.50 0.06
46.3
0.3
21.54 0.05
12.4
0.8
43.29
0.04
36.3 0.5 1
20
28.44 0.10
46.6
0.8
21.49 0.10
13.2
0.8
43.25
0.08
35.8 0.4
March 2
28.34 0.13
46.9
0.4
21.39 0.14
14.0
0.7
43.17
0.11
35.4 0.2
12
28.21 0.15
47.3
0.4
21.25 0.16
14.7
0.6
43.06
0.14
35.2 0.1
22
28.06 0.16
47.7
0.8
21.09 0.18
15.3
0.4
42.92
0.15
35.1 0.0
April 1
27.90 0.18
48.0
0.2
20 91 0.19
15.7
0.4
42.77
0.16
35.1 0.1
11
27.72 0.17
48.2
0.2
20.72 0.18
16.1
0.1
42.61
0.16
35.2 0.2
21
27.55 0.14
48.4
0.1
20.54 0 17
16.2
0.0
42.45
0.15
35.4 0.4
May 1
27.41 0.12
48.5
0.1
20.37 0.14
16.2
0.1
42.30
0.1.3
35.8 0.5
11
27.29 0.09
48.6
0.1
20.23 0.11
16.1
0.8
42.17
0.10
36.3 0.5
21
27.20 0.05
48.7
0.0
20.12 0.07
15.8
0.8
42.07
0.06
36.8 0.6 .
31
27.15 0.01
48.7
0.0
20.05 0.08
15.6
0.5
42.01
0.03
37.4 0.7 ;
June 10
27.14 0.03
48.7
0.0
20.02 0.02
15.0
0.6
41.98
0.01
38.1 0.8 1
20
27.17 0.08
48.7
0.0
20.04 0.07
14.4
0.6
41.99
0.05
38.9 0.8 ,
30
27.25 0.12
48.7
0.1
20.11 0.11
13.8
0.6
42.04
0.08
39.7 0.9 ,
July 10
27.37 0.15
48.6
0.1
20.22 0.15
13.2
0.7
42.12
0.11
40.6 0.8
20
27.52 0.18
48.5
0.1
20.37 0.19
12.6
0.7
42 23
0.15
41.4 0.8
30
27.70 0.11
48.4
0.1
20.56 0.22
11.8
0.8
42.38
0.18
42.2 0.7 :
Aug. 9
27.91 0.28
48.3
0.2
20.78 0.25
11.0
0.7
42.56
0.20
42.9 0.5 '
19
28.14 0.26
48.1
0.3
21.03 0.28
10.3
0.8
42.76
0.23
43.4 0.3 j
29
28.40 0.28
47.8
0.4
21 31 0.81
09.5
0.9
42.99
0.25
43.7 0.2 i
Sept 8
28.68 0.80
47.4
0.4
21.62 0.82
06.6
0.8
43.24
0.27
43.9 0.0
18
28.98 0.82
47.0
0.5
21.94 0.84
07.8
0.9
43.51
0.28
43.9 0.8
28
29.30 0.83
46.5
0.6
22.28 0.86
06.9
0.8
43.79
0.29
43.6 0.5
Oct. 8
29.63 0.83
45.9
0.6
22.64 0.86
06.1
0.8
44.08
0.81
43.1 0.8
18
29.96 0.84
45.3
0.6
23.00 0.87
05.3
0.7
44.39
0.82
42.3 1.0 J
28
30.30 0.88
44.7
0.7
23.37 0.86
04.6
0.6
44.71
0.81
41.3 1.1
Not. 7
30.63 0.83
44.0
0,7
23.73 0.85
04.0
0.6
45.02
0.80
40.2 1.8
17
30.96 0^1
43.3
0.6
24.08 034
03.5
0.8
45.32
0.29
38.9 1.4
27
31.27 0.29
42.7
0.6
24.42 0.82
03.2
0.2
45.61
0.27
37.5 1.5
Dec. 7
31.56 OM
42.1
0.5
24.74 0.29
03.0
0.0
45.88
0.25
36.0 1.4
17
31.82 0.28
41.6
0.8
25.03 0.25
03.0
0.8
46.13
0.21
34.6 1.8
27
32.05 0.18
41.3
0.2
25.28 0.20
03.8
0.8
46.34
0.17
33.3 1.8
37
32.23
41.1
25.48
03.6
46.51
32.0
FIXED STARS, 1855. 247
1 APPARENT PLACES OF THE PRINCIPAL FIXED
STABS, FOR THE DFPER I
TRANSIT AT WASHINGTON.
SIdeiMl
Diir of tb0
ft Oemihosum.
(Pattux.)
15 Argus.
• HydwB.
Mod*
in.
R.A.
Dec. AbnA.
R.A.
D^ South,
R.A.
0^. North.
h.
m.
o
,
h.
m.
o
i
h.
m.
o
7
36
28 22
8
1
23 63
8
39
6
56
Jan.
1
26.88
B.
0.18
23'.2
0.2
22.86
0.15
11.7
11
2.7
a.
6.12
B.
0.21
56.9
u
1.8
11
27.06
0.12
23.4
0.8
23.01
0.10
14.4
2.7
6.33
0.16
55.6
1.1
21
27.18
0.06
23.7
0.5
23.11
0.05
17.1
2.5
6.49
0.11
5^.5
0.9
81
27.24
0.01
24.2
0.6
23.16
0.00
19.6
2.8
660
0.07
53.6
0.8
Feb.
10
27.25
0.04
24.8
0.6
23.16
0.05
21.9
2.0
6.67
0.02
52.8
0.5
20
27.21
0.08
25.4
0.7
23.11
0.09
23.9
1.8
6.69
0.02
52.3
0.4
March 2|
27.13
0.12
26.1
0.7
23.02
0.13
25.7
1.4
6.67
0.07
51.9
0.8
12
27.01
0.16
26.8
0.6
22.89
0.15
27.1
1.1
6.60
0.10
51.6
0.0
22
26.86
0.17
27.4
a5
22.74
0.17
28.2
0.7
6.50
0.12
51.6
0.0
April
1
26.69
0.18
27.9
0.4
22.57
0.18
28.9
0.4
6.38
0.14
51.6
0.2
11
26.51
0J8
28.3
0.8
22.39
0.19
29.3
0.0
6.24
0.15
51.8
0.2
21
26.33
0ii6
28.6
0.2
22.20
0.18
29.3
0.4
6.09
0.14
52.0
0.4
May
1
26.17
0.14
28.8
0.0
22.02
0.17
28.9
0.7
5.95
0.13
52.4
0.4
11
26.03
0.11
28^
0.1
21.85
0.15
28.2
1.1
5.82
0.12
52.8
0.5
21
25.92
0.08
28.7
0.2
21.70
0.11
27.1
1.8
5.70
0.10
53.3
0.6
31
25.84
0.04
28.5
08
21.59
0.06
25.8
1.7
5.60
0.07
53.9
0.7
June
10
25.80
0.01
28.2
0.4
21.51
0.05
24.1
1.9
5.53
0.04
54.6
0.6
20
25.81
0.06
27.8
0.4
21.46
0.02
22.2
2.2
5.49
0.01
55.2
0.7
30
25.87
0.10
27.4
0.5
21.44
0.02
20.0
2.2
5.48
0.02
55.9
0.7
July
10
25.97
0.11
26.9
0.6
21.46
0.06
17.8
2.8
5.50
0.05
56.6
0.7
20
26.11
0.17
26.3
0.6
21.52
0.10
15.5
2.8
5.55
0.09
57.3
0.6
30
26.28
0.20
25.7
0.6
21.62
0.18
13i2
2.1
5.64
0.12
57.9
0.4
Aug.
9
26.48
0.23
25.1
0.6
21.75
0.17
11.1
2.0
5.76
0.14
58.3
0.8
19
26.71
0.26
24.5
07
21.92
0.20
9.1
1.7
5.90
0.17
58.6
0.1
29
26.97
0.28
23.8
0:8
22.12
0.23
7.4
1.8
6.07
0.20
58.7
0.0
Sept.
8
27.25
0.80
23.0
0.7
22.35
0.25
6.1
1.0
6.27
0.28
58.7
0.4
18
27.55
0.82
22.3
0.8
22.60
0.27
5.1
0.5
6.50
0.25
58.3
0.6
28
27.87
0.34
21.5
0.9
22.87
0.29
4.6
0.0
6.75
0.27
57.7
0.8
Oct.
8
28.21
0.35
20.6
0.8
23.16
0.81
4.6
0.5
7.02
0.29
56.9
1.1
18
28.56
0.35
19.8
0.9
23.47
0.82
5.1
0.9
7.81
0.31
55.8
1.2
28
28.91
0.85
18.9
0.7
23.79
0.82
6.0
1.5
7.62
0.32
54.6
1.4
Nov.
7
29.26
0.85
18.2
0.7
24.11
0 82
7.5
1.8
7.94
0.82
53.2
1.6
17
29.61
0.83
17.5
0.6
24.43
0.31
9.3
2.1
8.26
0.82
51.6
1.6
27
29.94
0.81
16.9
0.5
24.74
0.28
11.4
2.5
8.58
0.81
50.0
1.6
Dec.
7
30.25
0.28
16.4
0.8
25 02
0.25
18.9
2.6
8.89
0.29
48.4
1.6
17
80.53
0.25
16.1
0.1
25.27
0.22
16.5
2^
9.18
0.27
46.8
1.5
27
30.78
0.21
16.0
0.0
25.49
0.18
19.3
2.7
9.45
0.23
45.3
1.4
37
30.99
16.0
25.67
22.0
9.68
43.9
248
FIXED STARS, 1855.
1 APPARENT PLACES OF THE PRINCIPAL FIXED
STABS, FOB THE UFPEb!
I
TRANSIT AT WASHINGTON.
Sid«rpal
1 Ursas MajorU.
1 Argns.
«
( Htdba.
Dajrofiha
Month.
ILA.
Doc. North,
K.A.
Dec, South.
R.A
Dt^Sauth, 1
h.
m.
o
1
h.
m.
o
1
h.
m.
o
1
i ;
8
49
48
36
9
13
58
39
9
20
8
Jan.
1
16.37
0.31
24.9
n
0.9
13.70
8.
0.28
45.8
8.6
27.89
0.28
4&.1
t
2.2
n
16.68
0.25
25.8
1.2
13.98
0.19
49.3
8.6
28.12
0.19
51.3
2.0
21
16.93
0.18
27.0
1.4
14.17
O.ll
52.9
8.7
28.31
0.14
53.3
2.0 1
31
17.11
0.10
28.4
16
14.28
0.03
56.6
8.7
28.45
O.IO
55.8
1.7'
Feb.
10
17.21
0.03
30.0
1.8
14.31
0.04
60.3
8.5
28.55
0.05
57.0
1.5
20
17.24
0.03
31.8
1.8
14.27
0.11
63.8
8.8
28.60
0.00
58.5
1.8
March 2
17.21
0.09
33.6
1.7
14.16
0.18
67.1
8.1
28.60
0.04
59.8
1.1
12
17.12
0.14
35.3
1.7
13.98
0.24
70.2
2.8
28.56
0.07
60.9
0.8
22
16.98
0.18
37.0
1.4
13.74
0.29
73.0
2.4
28.49
0.10
61.7
0.5
April
1
16.80
0.22
38.4
1.2
13.45
0.88
75.4
1.9
28.39
0.12
62i2
0.8
11
16.58
0.24
39.6
0.9
13.12
0.85
77.3
1.4
28.27
0.14
62.5
0.1
21
16.34
0.24
40.5
0.5
12.77
0.87
78.7
0.9
28.13
0.14
62.6
0.1
May
1
16.10
0.23
41.0
0.2
12.40
0.87
79.6
0.4
27.99
0.14
62.6
0.4
11
15.87
0.21
41.2
0.1
12.03
0.86
80.0
0.1
27.85
0.13
62.1
0.5
21
15.66
0.17
41.1
0.5
11.67
0.35
79.9
0.7
27.72
0.11
61.6
0.8
31
15.49
0.13
40.6
0.9
11.32
0.82
79.2
1.2
27.61
0.09
60.8
0.9 !
June
10
15.36
0.09
39.7
l.l
11.00
0.28
78.0
1.7
27.52
0.07
59.9
1.0
20
15.27
0.05
38.6
1.4
10.72
0.24
76.3
2.1
27.45
0.05
58.9
1.1 1
30
15.22
0.00
37.2
1.7
10.48
0.19
74.2
2.4
27.40
0.03
57.8
1.8
July
10
15.22
0.05
35.5
1.8
10.29
0.18
71.8
2.8
27.37
0.00
56.5
1.2
20
15.27
0.10
83.7
2.0
10.16
0.08
69.0
8.0
27.37
0.03
55.3
1.8
30
15.37
0.15
31.7
2.0
10.08
0.01
66.0
3.1
27.40
0.06
54.0
1.2
Aug.
9
15.52
0.20
29.7
2.1
10.07
0.06
62.9
8.1
27.46
0.09
52.8
1.0
19
15.72
0.22
27.6
2.2
10.13
0.18
59.8
8.0
27.55
0.13
51.8
0.9 ^
29
15.94
0.26
25.4
2.1
lOJie
0.20
56.8
2.7
27.68
0.16
50.9
0.7*
Sept.
8
16.20
0.81
23.3
2.1
1046
0.26
54.1
2.4
27.84
0.19
50i2
0.8'
18
16.51
0.36
21.2
2.0
1072
0.32
51.7
1.9
28.03
0.21
49.9
0.1 ,
28
16.87
0.39
19.2
1.9
1104
0.89
49 8
1.4
28.24
0.24
49.8
0.8
Oct.
8
17.26
0.41
17.3
18
11.43
0.43
48.4
0.8
28.48
0.27
50.1
0.6
18
17.67
0.43
15.5
1.5
11.86
0.47
47.6
0.2
28.75
0.29
60.7
1.1
1
28
18.10
0.45
14.0
1.8
12.33
0.48
47.4
0.5
29.04
0.81
61.8
1.8
Nov.
7
18.55
0.46
12.7
1.0
12.81
0.50
47.9
1.1
29.35
0.82
53.1
1.6 ll
17
19.01
0.48
11.7
0.7
13.31
0.49
49.0
1.7
26.67
0.82
54.7
1.9
27
19.49
0.47
11.0
0.4
13.80
0.46
50.7
2.2
29.99
0.82
56.6
2.0
Dec.
7
19.96
0.43
10.6
0.0
14iJ6
0.44
52.9
2.7
80.81
0.80
68.6
2.2
17
20.89
0.38
10.6
0.8
14.70
0.40
55.6
3.1
80 61
0.28
60.8
2.2
27
20.77
0.84
10.9
0.7
15.10
0.81
58.7
8.4
30.89
0.25
63.0
2.8
87
21.11
11.6
15.41
62.1
31.14
66.3
FIXED 8TAHS, 1855. 249
APFAEENT PLACES
OF THE PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
aderad
DAT of the
MooUl
^ Una Majorif .
t Leonis.
1 Lkonis.
ReyuUa.)
R.A.
Dec. North.
R.A.
Doc. North,
R.A.
Dec. AbnA.
h. ni.
6§
1
h. m.
O 1
h.
in.
O 1
9 23
19
9 37
24 26
10
0
12 40
Jan. 1
8.92 0^86
62.4
0.8
37.15 0.28
21.9 0.6
38.88
a.
0.27
28.5 1.8
11
9.28 0.30
63.2
1.2
37.43 0.24
21.3 0.6
39.15
0.24
27.2 1.2
21
9.58 0.23
64.4
1.6
37.67 0.19
20.8 0.1
39.39
0.20
26.0 0.9
31
9.81 0 16
65.8
1.8
37.86 0.14
20.7 0.2
39.59
0.16
25.1 0.6
Feb. 10
9.97 0.09
67.6
1.9
38.00 0.08
20.9 0.8
39.74
0.10
24.5 0.4
20
10.06 0.02
69.5
2.0
38.08 0.03
21.2 0.6
39.84
0.06
24.1 0.1
March 2
10.08 0.05
71.5
2.0
38.11 0.01
21.8 0.8
39.89
0.01
24.0 0.0
12
10.03 0.12
73.5
1.9
38.10 0.05
22.6 0.8
39.90
0.08
24.0 0.2
22
9.91 0.18
75.4
1.8
38.05 0.09
23.4 0.9
39.87
0.06
24.2 0.4
Apnl 1
9.73 0.22
77.2
1.6
37.96 0.12
24.3 0.9
39.81
0.09
24.6 0.6
11
9.51 024
78.7
1.2
37.84 0.14
25.2 0.8
39.72
0.11
25.1 0.6
21
9.27 0.26
79.9
0.9
37.70 0.14
26.0 0.8
39.61
0.12
25.7 0.6
May 1
9.02 0.23
80.8
0.6
37.56 0.14
26.8 0.6
39.49
0.13
26.3 0.6
11
877 0.24
81.3
0.1
37.42 0.14
27.4 0.6
39.36
0.13
26.9 0.6
21
8.53 0.22
81.4
0.8
37.28 0.13
27.9 0.4
39.23
0.11
27.5 0.6
31
8.31 0.19
81.1
0.7
37.15 O.u
28.3 0.2
39.12
0.10
28.1 0.6
June 10
8.12 0.15
.80.4
1.1
37.04 0.08
28.5 0.0
39.02
0.08
28.6 0.4
20
7.97 0.11
79.3
1.4
36.96 0.05
28.5 0.1
38.94
0.06
29.0 0.4
30
7.86 0.06
77.9
1.7
36.91 0.02
28.4 0.3
38.88
0.04
29.4 0.2
July 10
7.81 0.01
76.2
1.9
36.89 0.01
28.1 0.6
38.84
0.02
29.6 0.2
20
7.82 0.06
74.3
2.2
36.90 0.03
27.6 0.6
38.82
0.01
29.8 0.0
30
7.87 0.10
72.1
2.4
36.93 0.07
27.0 0.7
38.83
0.04
29.8 0.1
Aug. 9
7.97 0.15
69.7
2.4
37.00 0.10
26.3 1.0
38.87
0.07
29.7 0.2
19
8.12 0.19
67.3
2.6
37.10 0.13
25.3 1.1
38.94
0.10
29.5 0.6
29
8.31 0.24
64.8
2.6
37.23 0.16
24.2 1.2
39.04
0.12
29.0 0.6
Sept 8
8.55 0.29
62.2
2.6
37.39 0.19
23.0 1.4
39.16
0.15
28.4 0.8
18
8.84 0.34
59.7
2.6
37.58 0.22
21.6 1.5
39.31
0.19
27.6 1.1
28
9.18 0.38
57.2
2.8
37.80 0.26
20.1 1.6
39.50
0.22
26.5 1.2
Oct 8
9.56 0 41
54.9
2.2
38.06 0.29
18.5 1.7
39.72
0.26
25.3 1.4
18
9.97 0.44
52.7
1.9
38.35 0.81
16.8 1.8
39.97
0.28
23.9 1.6
28
10.41 046
50.8
1.7
38.66 0.83
15.0 1.8
40.25
0.80
22.3 1.7
Nov. 7
10.87 0.48
49.1
1.4
38.99 0.86
13.2 1.7
40.55
0.82
20.6 1.9
17
11.35 0.49
47.7
1.1
39.34 0.36
11.5 1.7
40.87
0.33
18.7 1.8
27
11.84 0.48
46.6
0.6
39.70 0.36
9.8 1.4
41.20
0.84
16.9 1.9
Dec. 7
12.32 0.46
46.0
0.8
40.06 0.36
8.4 1.4
41.54
0.88
15.0 1.8
17
12.78 0.44
45.7
0.1
40.41 0.82
7.0 1.1
41.87
0.32
13.2 1.7
27
13.22 0.40
45.8
0.6
40.73 0.29
5.9 0.9
42.19
0.30
11.5 1.5
37
13.62
46.4
41.02
5.0
42.49
10.0
32
250
FIXED STARS, 1855.
APPARENT PLACES
OF THE PRINCIPAL FIXED
STABS, FOB THE UPPER
TRANSIT AT WASHINGTON.
Sidereal
i^Argiw.
a TJrbm Majokis.
a Lboxis. 1
"•A.^ui'"
^ B.A.
Dtic. South.
R.A.
Dec. North.
R.A.
Dec North.
h. m.
10 39
58 55
h ra.
10 64
62
3i
h.
11
m.
6
21 l6
Jan.
1
26.92 0.40
6.6
II
8.0
•. a
45.70 0.66
4^.6
N
0.3
23.44
0.83
6(?.4 1.8
11
27.32 0.36
3.6
8.8
46.26 0.60
46.9
0.7
23.77
0.80
59.1 1.1
21
27.67 0.28
6.9
8.6
46.76 0.44
47.6
1.8
24.07
0.27
58.0 0.7
31
27.95 0.21
10.4
8.7
47.20 0.86
48.9
1.8
24.34
0.28
57.3 0.8
Feb.
10
28.16 O.u
14.1
8.7
47.56 0.27
60.7
2.1
24.57
0.18
57.0 0.0
20
28.30 0.06
17.8
8.6
47.83 0.18
53.8
2.8
24.75
0.12
57.0 0.8
March 2 |
28.36 0.01
21.4
3.5
48.01 0.09
55.1
2.6
24.87
0.07
57.3 0.6
12
28.35 0.08
24.9
3.8
48.10 0.00
57.6
2.6
24.94
0.03
57.8 0.7
1
22
28.27 0 14
28.2
8.1
48.10 an
60.2
2.6
24.97
0.01
58.5 0.9
April
1
28.13 0.19
31.3
2.8
47.99 0.19
62.8
2.4
24.96
0.04
59.4 0.9
11
27.94 0.24
34.1
2.4
47.80 0.24
65.2
2.2
24.92
0.07
60.8 1.0
21
27.70 0.27
36.5
1.9
47.56 0.28
67.4
1.8
24.85
0.09
61.8 1.1
May
1
27.43 0.80
38.4
1.6
47.28 0.32
69.2
1.4
24.76
0.11
62.4 1.0
11
27.13 0.S2
39.9
1.0
46.96 0 81
70.6
1.0
24.65
0.12
63.4 0.9
21
26.81 0.83
40.9
0.6
46.65 0.82
71.6
0.6
24.53
0.18
64.8 0.8
31
26.48 0.33
41.4
0.1
46.38 0.84
72.2
0.1
24.40
0.12
65.1 0.6
June
10
26.15 0.82
41.3
0.6
45.99 0.82
72.3
0.6
24.28
0.11
65.7 0.6
!
20
25.83 0.30
40.7
1.1
45.67 0.29
71.8
1.0
24.17
0.10
66.2 0.8
[
30
25.53 0.28
39.6
1.6
45.38 0.26
70.8
1.6
24.07
0.08
66.5 OU)
1 Juiy
10
25.25 0.24
38.0
2.0
45.13 0.20
69.8
1.9
23.99
0.07
66.5 0.2
20
25.01 0.18
36.0
2.8
44.98 0.16
67.4
2.8
23.92
0.06
66.8 0.4
30
24.82 0.14
3a7
2.6
44.78 0.09
65.1
2.6
23.87
0.03
65.9 0.6
Aug.
9
24.68 0.08
31.1
2.8
44.69 0.03
62.5
2.9
23.84
0.01
658 0.9
19
24 60 0.01
28.3
2.9
44.66 0.08
59.6
8.1
23.83
0.02
64.4 1.1
29
24.59 0.06
25.4
2.9
44.69 0.08
56.5
8.8
23.85
0.06
63.8 1.2
Sept
8
24.65 0.13
22.5
2.8
44.77 0.14
53.2
8.4
23.91
0.10
62.1 1.4
18
24.78 0.21
19.7
2.4
44.91 0.21
49.8
3.4
24.01
0.18
60.7 1.7
28
24.99 0.28
17.3
2.0
45 12 0.80
46.4
8.8
24.14
0.17
59.0 1.9
Oct
8
25.27 0.34
15.3
1.6
45.42 0.87
43.1
8.2
24.31
0.21
57.1 2.0
18
25.61 0.40
13.8
1.0
45.79 0.44
39.9
8.0
24.52
0.26
55.1 2.1
1
t
28
26.01 0.45
12.8
0.6
46.23 0.50
86.9
2.8
24.77
0.28
58.0 2.2
Nov.
7
26.46 0.49
12.3
0.1
46.73 0.64
84.1
2.4
25.05
0.81
50.8 2.2
17
26.95 0.61
12.4
0.7
47.27 0.67
31.7
2.0
25.36
0.84
48.6 2.2
27
27.46 0.51
13.1
1.8
47.84 0.62
29.7
16
25.70
0.35
46.4 2.1
Dec.
7
27.97 0.50
14.4
1.8
48.46 0.62
26.1
1.2
26.05
0.86
44.8 2.0
17
28.47 0.48
16.2
2.4
49.08 0.60
26.9
0.7
26.41
0.86
42.8 1.8
27
28.95 0.44
18.6
2.9
49.68 0.58
26.2
0.1
26.77
0.84
40.5 1.6
37
29.39
21.5
50i26
26.1
27.11
88.9
FIXED STARS, 1855.
251
APJPABKNT PLACES OF THE PRINCIPAL FIXED
STARS, FOB THE UPPER
TBAN8IT AT WASHINGTON.
Sideful
< Bjinb ct
Cnterifl
.
fi Lbonis.
Y Vbbm Majokis.
DsT of iha
HoDlb.
B.A.
D^, South,
R.A.
Dt^ North.
R.A.
Dec. North.
h.
11
m.
12
13 69
h. m.
11 41
15 25!
h. m.
11 46
54 29
Jan.
1
5.34
0.31
31.3
It
2.3
39.34 0.84
5S.8
u
1.7
11.32 0.49
51.4 0.7
11
6.65
0.28
33.6
2.8
39.68 0.81
54.1
1.6
11.81 0.46
50.7 0.0
21
5.93
0.24
35.9
2.3
39.99 0.27
52.6
1.1
12.27 0.41
50.7 0.5
31
6.17
0.20
38.2
2.2
40.26 0.24
51.5
0.9
12.68 0.86
51.2 0.9
Feb.
10
6.37
0.16
40.4
1.9
40.50 0.20
50.6
0.6
13.04 0.80
52.1 1.4
20
6.53
0.12
42.3
1.8
40.70 016
50.1
0.1
13.34 0.24
53.5 1.9
March 2
6.65
0.08
44.1
1.6
40.86 0.11
50.0
0.1
13.58 0.16
55.4 2.1
12
6.73
0.04
45.7
1.3
40.97 0.07
50.1
0.4
13.74 0.09
57.5 2.8
22
6.77
0.00
47.0
1.2
41.04 0.08
50.5
0.5
13.83 0.02
59.8 2.5
April
1
6.77
0.04
48.2
0.8
41.07 0.01
51.0
0.8
13.85 0.05
62.3 2.6
11
6.73
0.07
49.0
0.7
41.06 0.04
51.8
0.9
13.80 0.10
64.8 2.4
21
6.66
0.08
49.7
0.8
41.02 0.06
52.7
1.0
13.70 0.15
67.2 2.2
May
1
6.58
0.10
50.0
0.2
40.96 0.08
53.7
0.9
13.55 0.19
69.4 1.9
11
6.48
0.11
50.2
0.1
40.88 0.09
54.6
0.9
13.36 0.22
71.3 1.6
21
6.37
0.11
50.1
0.3
40.79 0.10
55.5
0.9
13.14 0.24
72.9 1.2
81
6.26
0.11
49.8
0.4
40.69 0.10
56.4
0.8
12.90 0.25
74.1 0.7
June
10
6.15
0.11
49.4
0.7
40.59 0.10
57.2
0.6
12.65 0.24
74.8 0.8
20
6.04
0.10
48.7
0.8
40.49 0.10
57.8
0.5
12.41 0.24
75.1 0.3
30
5.94
0.09
47.9
0.9
40.39 0.10
58.3
0.8
12.17 0.23
74.8 0.7
July
10
5.85
0.08
47.0
1.0
40.29 0.09
58.6
0.1
11.94 0.20
74.1 1.2
20
5.77
0.06
46.0
1.1
40.20 0.07
58.7
0.0
11.74 0.17
72.9 1.6
30
5.71
0.04
44.9
1.1
40.13 005
58.7
0.8
11.57 0.14
71.8 2.0
Aug.
9
5.67
0.02
43.8
1.0
40.08 0.03
58.4
0.4
11.43 0.10
69.3 a.4
19
5.65
0.01
42.8
1.0
40.05 0.01
58.0
0.7
11.33 0.06
66.9 2.7
29
5.66
0.04
41.8
0.8
40.04 0.01
57.3
1.0
11.27 0.01
64.2 2.9
Sept
8
5.70
0.08
41.0
0.6
40.05 0.06
563
1.1
11.26 0.05
61.3 8.1
18
5.78
0.12
40.4
0.3
40.10 0.09
55.2
1.4
11.31 0.10
58.2 S.3
28
5.90
0.16
40.1
0.1
40.19 0.13
538
1.6
11.41 0.16
54.9 3.4
Oct
8
6.06
0.20
40.0
0.1
40.32 0.17
52.2
1.8
11.57 0.22
51.5 8.8
18
6.26
0.23
40.1
06
40.49 0.20
50.4
1.9
11.79 0.26
48.2 8.3
28
6.49
0.26
40.7
0.8
40.69 0.24
48.5
2.1
12.05 0.32
44.9 8.2
Nov.
7
6.75
0.29
41.5
1.2
40.93 0.27
46.4
2.8
12.37 0.87
41.7 8.0
17
7.04
0.82
42.7
1.6
41.20 0.81
44.1
2.8
12.74 0.44
38.7 2.7
27
7.36
0.84
44.3
1.8
41.51 0.88
41.8
2.2
13.18 0.47
36.0 2.8
Dec.
7
7.70
0.84
46.1
2.1
41.84 0.84
39.6
2.2
13.65 0.60
33.7 1.9
17
8.04
0.83
48.2
2.2
42.18 0.84
37.4
2.1
1415 0.61
81.8 1.5
27
8.37
0.32
50.4
2.8
42.52 0.83
35.3
1.8
14.66 OJM)
80.8 0.9
87
8.69
52.7
42.85
33.5
15.16
29.4
25^ FIXED STIRS, 1855.
APPARENT PLACES OF THE PRINCIPAL FIXED
3TABS, FOB THE UPPER 1
TRANSIT AT WASHINGTON.
1
Skfereal
fi Cluunaleontif.
al Cradfl.
/iConri. !
Iky or
the
ih.
K.A.
Dec South.
R.A.
D«i. South.
R.A
DocSomth.
h. 01.
o
.
h. xn.
o
1
h. m.
O 1
12 09
78 30
12 18
62
17
12 26
22 35
Jan.
1
54.28 1.13
l".0
N
1.8
fl. a.
32.56 0.56
17.7
M
2.1
a. ■.
45.76 0.85
2^.1 it
11
55.41 1.04
2.8
2.8
33.12 0.52
19.8
2.5
46.11 0.83
31.3 2J
21
56.45 0.94
5.1
2.8
33.64 0.47
22.3
2.8
46.44 0.80
33.6 3.6
31
57.39 0.81
7.9
3.1
34.11 0.42
25.1
8.1
46.74 0.27
36.1 S.S
Feb.
10
58.20 0.67
11.0
8.4
34.53 0.86
28.2
8.4
47.01 0.24
88.4 3.S
20
58.87 0.52
14.4
8.7
34.89 0.29
31.6
8.5
47.25 0.20
40.7 a.2
March 2
59.39 0.36
18.1
8.8
35.18 0.22
35.1
8.5
47.45 0.15
42.9 3.1
12
59.75 0.20
21.9
8.9
35.40 0.14
38.6
8.5
47.60 0.11
45.0 1.9
22
59.95 0.04
25.8
8.8
35.54 0.07
42.1
3.5
47.71 0.07
46.9 i.«
April
1
59.99 0.12
29.6
8.7
85.61 0.00
45.6
8.8
47.78 0.04
48.5 i.»
11
59.87 0.28
33.3
3.6
35.61 0.06
48.9
8.0
47.82 0.02
60.0 1.8
21
59.59 0.43
36.9
8.3
35.55 0.12
51.9
2.7
47.84 0.01
51JI 1.0
May
I
59.16 0.57
40.2
2.9
35.43 0.17
64.6
2.4
47.83 0.04
52.2 0.8
11
58.59 0.69
43.1
2.5
35.26 0.22
57.0
2.0
47.79 0.07
53.0 0.5
21
57.90 0.79
45.6
2.1
35.04 0.27
59.0
1.6
47.72 0.09
53.5 0.2
31
57.11 0.88
47.7
1.7
34.77 0.81
60.6
1.1
47.68 0.10
53.7 0.0
June
10
56.23 0.94
49.4
1.1
34.46 0.33
61.7
0.6
47.53 0.10
63.7 0.2
20
55.29 0.97
50.5
0.5
34.13 0.34
62.8
0.1
47.43 0.11
63.5 0.4 1
30
54.32 0.97
51.0
0.1
33.79 0.35
62.4
0.4
47.32 0.12
53.1 0.7
July
10
53.35 0.95
50.9
0.7
33.44 0.35
62.0
0.9
47.20 0.12
62.4 0.8
20
52.40 0.90
50.2
1.8
38.09 0.83
61.1
1.4
47.08 0.10
61.6 1.0
30
51.50 0.81
48.9
1.8
32.76 0.30
59.7
1.8
46.98 0.11
50.6 1.1 ;
Aug.
9
50.69 0.69
47.1
2.2
32.46 0.26
57.9
2.2
46.87 (r.09
49.6 1.2 1
19
50.00 0.54
44.9
2.6
32.20 0.20
65.7
2.4
46.78 0.07
48.3 1.2 '
29
49.46 0.87
42.8
2.8
32.00 0.13
58.8
2.5
46.71 0.08
47.1 1.2 i|
Sept.
8
49.09 0.18
89.5
8.0
31.87 0.05
50.8
2.6
46.68 0.00
45.9 1.0 ;
18
48.91 0.02
36.5
3.0
31.82 0.03
48.2
2.6
46.68 a.04
44.9 0.9 1
28
48.93 0.23
33.5
2.9
31.85 0.12
45.0
2.5
46.72 0.08
44.0 0.6 !
Oct.
8
49.16 0.43
30.6
2.7
31.97 0.21
43.1
2.2
46.80 0.18
43.4 0.4 1
18
49.59 0.62
27.9
2.4
32.18 0.80
40.9
1.8
46.98 0.18
48.0 0.1 1
28
50.21 0.80
25.5
1.9
32.48 0.38
89.1
1.4
47.11 0.22
42.9 0.8 ;.
Nov.
7
51.01 0.95
23.6
1.4
32.86 0.45
87.7
0.9
47.38 0.26
43.8 o.< i'
n
51.96 1.06
22.2
1.0
83.31 0.50
36.8
0.4
47.59 0.80
43.8 1.0 1
27
5802 1.14
21.2
0.8
83.81 0.54
36.4
0.1
47.89 0.88
44.8 1.4
Dec.
7
54.16 1.19
20.9
0.8
84.35 0.57
86.5
07
48.22 0.84
46.3 1.8
17
55.36 1.18
21.2
0.9
84.92 0.58
87.2
1.8
48.56 0.85
47.8 2.0
27
56.53 1.17
221
1.6
85.50 0.58
38.5
1.8
48.91 0.85
49.8 2.1
37
57.70
23.6
36.08
40.8
49.26
51.9
FIXED STARS, 1855. 253
APPARENT PLACES OP THE PRINCIPAL PIXED STABS, FOE THE BPPSAI
TRAKSIT AT WASHINOTON.
0*7 of itaa
Hoalh.
13 Canam Veiuticoniiii.
a YiROiHis.
(Spica.)
IT Ubbji Majoxis.
K.A.
Dec. ffoHh
R.A.
Thtc. South.
R.A.
Dec. North,
h.
12
m.
49
39
i
h. m.
13 17
10 24
h. m.
13 41
50 1
Jan.
1
13.81
0.89
57*9
H
1.6
32.48 0.88
^.3 2.1
48.59 0^43
64.2 2.0
11
14.20
0.88
56.3
1.2
32.81 0.88
8.4 2.0
49.02 0.44
62.2 1.4
21
14.58
0.86
55.1
0.7
33.14 0.81
10.4 2.0
49.46 0.42
60.8 0.9
31
14.94
0..34
54.4
0.1
33.45 0.29
12.4 1.9
49.88 0.89
59.9 0.3
Feb.
10
15.28
0.80
54.3
0.8
33.74 0.27
14.3 1.8
50.27 0.88
59.6 0.8
20
15.58
0.25
54.6
0.8
34.01 0.24
16.1 1.5
50.63 0.85
59.9 0.8
March 2|
15.83
0.20
55.4
1.2
34.25 0.20
17.6 1.4
50.98 0.80
60.7 1.8
12
16.03
0.16
56.6
1.5
34.47 0.16
19.0 i.i
51.28 0.24
62.0 1.8
22
16.18
0.11
58.1
1.9
34.64 0.18
20.1 1.0
51.54 0.20
63.8 2.2
April
1
16.29
0.06
60.0
2.0
34.74 0.10
21.1 0.7
51.74 0.14
66.0 2.5
11
16.35
0.01
62.0
2.2
34.84 0.07
21.8 0.6
51.88 0.07
68.5 2.6
21
16.36
0.03
64.2
2.1
34.91 0.03
22.3 0.3
51.95 0.02
71.1 2.7
May
1
16.33
0.06
66.3
2.1
34.94 0.00
22.6 0.1
51.97 0.03
73.8 2.6
11
16.27
0.09
68.4
1.9
34.94 0.02
22.7 0.0
51.94 0.08
76.4 2.6
21
16.18
0.12
70.3
1.7
34.92 0.04
22.7 0.2
51.86 0.13
78.9 2.8
31
16.06
0.14
72.0
1.4
34.88 0.06
22.5 0.8
51.73 0.16
81.2 1.9
June
10
15.92
0.15
73.4
I.O
34.82 0.07
22.2 0.4
51.57 0.19
83.1 1.5
20
15.77
0.16
74.4
0.6
34.75 0.09
21.8 0.4
51.38 0.21
84.6 1.1
30
15.61
0.17
75.0
0.8
34.66 0.10
21.4 0.6
51.17 0.23
85.7 0.6
July
10
15.44
0.17
75.3
0.1
34.56 0.11
20.8 0.6
50.94 0.24
86.3 0.2
20
15.27
0.16
75.2
0.6
34.45 0.12
20.2 0.6
50.70 0.24
86.5 0.8
30
15.11
0.15
74.6
0.9
34.33 012
19.6 0.6
50.46 0.24
86.2 0.8
Aug.
9
14.96
0.13
73.7
1.4
34.21 0.10
19.0 0.6
50.22 0.23
85.4 1.3
19
14.83
0.10
72.3
1.7
34.11 0.09
18.4 0.5
49.99 0.21
84.1 1.8
29
14.73
0.07
706
2.1
34.02 0.07
17.9 0.6
49.78 0.18
82.3 2.2
Sept
8
14.66
0.04
68.5
2.8
33.95 0.04
17.4 03
49.60 0.14
80.1 2.5
18
14.62
0.00
66.2
2.6
33.91 0.01
17.1 0.2
49.46 0.09
77.6 2.8
28
14.62
0.05
63.6
2.9
33.90 0.03
16.9 0.1
49.37 0.05
74.8 8.1
Oct.
8
14.67
0.10
60.7
8.0
33.93 0.08
17.0 0.2
49.32 0.01
71.7 8.4
18
14.77
0.15
57.7
8.1
34.01 0.12
17.2 0.6
49.33 007
68.3 8.6
28
14.92
0.20
54.6
8.1
34.13 0.16
17.8 0.8
49.40 0.14
64.8 3.6
Nov.
7
15.12
0.25
51.5
8.2
34.29 0.21
18.6 1.1
49.54 0.20
61.2 8.6
17
15.37
0.29
48.3
3.0
34.50 0.25
19.7 1.8
49 74 0.25
57.6 8.5
27
15.66
0.83
45.3
2.9
34.75 0.28
21.0 1.6
49.99 0.81
54.1 8.8
Dec.
7
15.99
0.36
42.4
2.6
35.03 0.81
22.6 1.8
50.30 0.86
50.8 8.0
17
16.35
0.39
39.8
2.8
35.34 088
24.4 1.9
50.66 0.40
47.8 2.6
27
16.74
0.40
37.5
1.9
35.67 0.84
26.3 2.0
51.06 0.42
45.2 2.2
37
17.14
35.6
36.01
28.3
51.48
43.0
254 FIXED STARS, 1855.
I^PARENT PLACES i
)F THE PRINCIPAL FIXED
STABS, FOB THE UPFEbI
TRANSIT AT WASHINGTON.
SMeiwl
Dftv oftbe
•iBootb.
fl Centaari.
a BooTis.
(Arctunu.)
E.A.
The North. 1
R.A
IhcSemh. 1
R.A.
DecM^rO.
h. m.
o
i
h. m.
o
1
h.
m.
O f
13 47
19
13 63
59
39
14
9
19 65
Jan.
1
•. a.
45.83 0.83
2^.7
2.2
a. ■.
35.49 0.66
5^.6
0.9
1.77
0.83
74*8 2.8
11
46.16 0.84
26.5
1.9
36.05 0.66
57.5
1.8
2.10
0.83
72.5 2.1
21
46.50 0.83
24.6
1.6
36.61 0.54
58.8
1.7
2.43
0.83
70.4 1.7
31
46.83 0.81
23.0
1.2
37.15 0.52
60.5
2.1
2.76
0.82
68.7 1.$
Feb.
10
47.14 0.29
21.8
0.8
37.67 0.48
62.6
2.4
3.08
0.80
67.4 0.9
20
47.43 0.26
21.0
0.8
38.15 0.44
65.0
2.7
3.38
0.27
66.5 0.4
March 2|
47.69 0.28
20.7
0.0
38.59 0.89
67.7
2.9
3.65
0.24
66.1 0.1
12
47.92 0.19
20.7
0.4
38.98 0.88
70.6
8.0
3.89
0.21
66.0 0.4
22
48.11 0.16
21.1
0.8
39.31 0.27
73.6
8.1
4.10
0.18
66.4 0.7
April
1
48.27 0.12
21.9
1.0
39.58 0.22
76.7
8.1
4.28
0.14
67.1 1.0
11
48.39 0.09
22.9
1.8
39.80 0 16
79.8
8.0
4.42
0.10
68.1 1.8
21
48.48 0.06
24.2
1.4
39.96 0.10
82.8
8.0
4.52
0.07
69.4 1.6
May
1
48.54 0.03
25.6
1.5
40.06 0.04
85.«
2.8
4.59
0.04
70.9 1.6
1
11
48.57 0.01
27.1
1.5
40.10 0.02
88.6
2.6
4.63
0.01
72.4 1.8
21
48.56 0.04
28.6
1.5
40.08 0.06
91.2
2.8
4.64
0.02
74.0 1.6
31
48.52 0.06
30.1
1.4
40.00 0.14
93.5
2.0
4.62
0.05
75.6 1.4
June
10
48.46 0.08
31.5
1.2
39.86 0.19
95.5
1.6
4.57
0.07
77.0 1.8
20
48.38 0.10
32.7
1.0
39.67 0.28
97.1
1.2
4.50
0.09
78.3 1.2
30
48.28 0.12
33.7
0.8
39.44 0.27
98.3
0.7
4.41
0.11
79.5 0.8
July
10
48.16 0.12
34.5
0.6
39.17 0.80
99.0
0.8
4.30
0.13
80.3 0.<
20
48.04 0.18
35.1
0.2
88.87 0.82
99.3
0.2
4.17
0.18
80.9 0.4
30
47.91 0.18
35.3
0.0
88.55 0.82
99.1
0.7
4.04
0.14
81.3 0.0
Aug.
9
47.78 0.18
35.3
0.8
88.23 0.81
98.4
1.1
3.90
0.14
81.3 0.2
19
47.65 0.12
35.0
0.6
37.92 0.29
97.3
1.5
3.76
0.14
81 1 0.6
29
47.53 0.10
34.4
0.9
37.63 0.26
95.8
1.8
3.62
0.12
80.5 0.9
Sept
8
47.43 0.08
83.5
1.2
87.88 0.20
94.0
2.1
3.50
0.10
79.6 1.2
18
47.35 0.05
32.3
1.4
87.18 0.13
91.9
2.8
3.40
0.08
78.4 1.6
28
47.30 0.01
30.9
1.8
37 05 0.05
89.6
2.4
3.32
0.04
76.9 1.7
Oct
8
47.29 0.02
29.1
1.9
37.00 0.04
87.2
2.8
3.28
0.00
75.2 2.0
18
47.31 0.08
27J2
2.8
37.04 0.12
84.9
2.2
3i28
0.05
78iJ 2.8
28
47.39 0.12
24.9
2.4
87.16 0.21
82.7
t.0
3.38
0.10
70.9 2.6
Not.
7
47.51 0.17
22.5
2.5
87.37 0.29
80.7
1.7
3.43
0.15
68.4 26
17
47.68 0.22
20.0
2.6
87.66 0.87
79.0
1.8
3.58
0.20
65.8 2.7
27
47.90 0.25
17.4
2.7
88.03 0.48
77.7
0.9
8.78
0.24
68.1 2.8
Dec.
7
48.15 0.29
14.7
2.6
38.46 0.48
76.8
0.4
4.02
0.27
60.3 2.6
17
48.44 0.82
12.1
2.6
88.94 0.58
76.4
0.2
459
0.30
57.7 2.6
27
48.76 O.SS
09.6
2.8
89.47 0.66
76.6
0.6
4.59
0.82
55.1 2.6
87
49.09
07.2
40.03
77.2
4.91
52.5
FIXED STARS, 1865. 255
APPAKENT PLACES OF THE PRINCIPAL FIXED
STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
Sidetml
Day of the
Mooih.
<>> CentMri.
• Boons.
a
S.A
DecAwfA.
R.A.
Dec. North.
R.A
Dec. Aml^
1
1
h. m.
U 29
60 13
h. m.
14 38
27 40
h.
14
m.
42
15 26
Jan. 1
44.99 0.67
37.6 0.3
37.99 0.83
6^.2
N
2.4
50.26
a.
0.33
^.5 L7
11
45.56 0.58
87.9 0.8
38.32 0.84
63.8
2.1
50.59
0.33
9.2 1.6
21
46.14 0.58
38.7 1.8
38.66 0.84
61.7
1.7
50.92
0.33
10.8 1.7
31
46.72 0.64
40.0 1.7
39.00 0.84
60.0
1.3
51.25
0.33
12.5 1.7
Feb. 10
47.26 0.52
41.7 2.0
39.34 0.82
58.7
0.8
51.58
0.31
14.2 1.6
20
47.78 0.49
43.7 2.3
89.66 0.80
57.9
0.3
51.89
0.29
15.8 1.5
March 2
48.27 0.44
46.0 2.5
39.96 0.27
57.6
0.2
52.18
0.27
17.3 1.8
12
48.71 0.38
48.5 2.7
40.23 0.24
57.8
0.7
52.45
0.24
18.6 1.2
22
49.09 0.34
51.2 2.9
40.47 0.21
58.5
1.0
52.69
0.21
19.8 1.0
April 1
49.43 0.26
54.1 2.9
40.68 0.18
59.5
1.4
52.90
0.18
20.8 0.8
11
49.69 0.21
57.0 2.9
40.86 0.14
60.9
1.7
53.08
0.15
21.6 0.6
21
49.90 0.17
59.9 2.9
41.00 0.10
62.6
1.9
53.23
0.12
22.2 0.5
May 1
60.07 0.11
62.8 2.8
41.10 0.06
64.5
2.1
53.35
0.09
22.7 0.8
11
50.18 0.04
65.6 2.6
41.16 0.03
66.6
2.1
53.44
0.06
23.0 0.2
21
50.22 0.03
68.2 2.4
41.19 0.01
68.7
2.1
53.50
0.03
23.2 0.1
31
50.19 0.09
70.6 2.1
41.20 0.04
70.8
1.9
53.53
0.01
23.3 0.1
June 10
50.10 0.15
72.7 1.8
41.16 0.06
72.7
1.7
53.54
0.02
23.2 0.1
20
49.95 0.20
74.5 1.5
41.10 0.09
74.4
1.5
53.52
0.05
23.1 0.2
30
49.75 0.25
76.0 1.1
41.01 0.11
75.9
1.2
53.47
0.08
22.9 0.2
July 10
49.50 0.29
77.1 0.6
40.90 0.14
77.1
0.9
53.39
0.10
22.7 0.8
20
49.21 0.32
77.7 0.2
40.76 0.16
78.0
0.5
53.29
0.12
22.4 0.4
30
48.89 0.34
77.9 0.8
40.60 0.17
78.5
0.2
53.17
0.14
22.0 0.5
Aug. 9
48.55 0.85
77.6 0.7
40.43 0.17
78.7
0.2
53.03
0.15
21.5 0.5
19
48.20 0.34
76.9 1.1
40.26 0.16
78.5
0.6
52.88
0.14
21.0 0.4
29
47.86 0.81
75.8 1.4
40.10 0.15
77.9
1.0
52.74
0.13
20.6 0.5
Sept. 8
47.55 0.26
74.4 1.7
89.95 0.18
76.9
1.8
52.61
0.11
20.1 0.4
18
47.29 0.19
72.7 2.0
39.82 0.11
75.6
1.7
52.50
0.08
19.7 0.4
26
47.10 0.12
70.7 2.2
39.71 0.08
739
2.0
52.42
0.04
19.3 0.2
Oct 8
46.98 0.04
68.6 2.4
39.63 0.04
71.9
2.3
52.38
0.00
19.1 0.1
18
46.94 0.04
66.1 2.3
39.59 0.01
69.6
2.5
52.38
0.04
19.0 0.1
28
46.98 0.18
63.8 2.1
39.60 0.06
67.1
2.7
52.42
0.09
19.1 0.4
Nov. 7
47.11 0.22
61.7 1.9
39.66 0.11
64.4
2.9
52.51
0.14
19.5 0.5
17
47.33 0.81
59.8 1.7
39.77 0.17
61.5
2.9
52.65
0.19
20.0 0.8
27
47.64 0.89
58.1 1.4
39.94 0.22
58.6
2.9
52.84
0.28
20.8 1.0
Dec. 7
48.03 0.46
56.7 1.0
40.16 0.26
55.7
2.9
53.07
0.27
21.8 1.2
17
48.49 0.51
55.7 0.5
40.42 0.29
52.8
2.8
53 34
0.30
23.0 1.4
27
49.00 0.54
55.2 0.1
40.71 0.81
50.0
2.6
53.64
0.32
24.4 1.6
87
49.54
55.3
41.02
47.4
53.96
26.0
'1
256 fflKC:D ^r^KS, |8»5.
APPARENT PLACES OF THE PRINCIPAL FIXED
STARS, FOR THE UPPER 1
TRANSIT AT WASHINGTON.
Sidereal
fi UrSJB MlHORlS. 1
pUbrm.
a ConOVM BOBBAUB.
D«T of the
Mooth.
1
R.A.
D9C. North.
R.A.
Dec. South.
B.A.
Dec. North
h. m.
o t
h. m.
o
1
h. m.
c 1
14 51
74 44
15 9
8
60
15 28
27 11
Jan.
1
9.01 0.76
35.8 2.4
10.88 0.81
46.9
II
1.7
31.41 0.30
69.6 2".7
11
9.77 0.87
32.9 1.8
11.19 0.82
42.6
1.7
31.71 0.32
66.9 2.8
21
10.64 0.92
31.1 1.2
11.51 0.33
44.3
1.7
32 03 0.33
64.6 2.0
31
11.56 0.89
29.9 0.6
11.84 0.32
46.0
1.5
32.36 0.33
62.6 1.6
Feb.
10
12.45 0.88
29.3 0.0
12.16 0.31
47.5
1.4
32.69 0.33
61.0 1.1
20
13.83 0.83
29.8 0.7
12.47 0.30
48.9
L3
33.02 0.82
59.9 0.6
March 2
14.16 0.76
30.0 1.8
12.77 0.28
60.2
1.0
33.34 0.30
59.4 0.1
12
14.92 0.67
31.8 1.9
13.05 0.25
51.2
0.8
33.64 0.27 59.3 0.4 1!
22
15.59 0.56
33.2 2.8
13.30 0.23
52.0
0.6
33.91 0.25
59.7 0.8
April
1
16.14 a88
35.5 2.7
13.53 0.20
52.6
0.4
34.16 0.22
60.5 1.8
(
11
16.52 0.24
88.2 8.0
13.73 0.18
53.0
0.2
34.88 0.19
61.8 1.7 1
1
21
16.76 0.15
41.2 8.1
13.91 0.15
53.2
0.0
34.57 0.16
63.5 1.9 1
; May
1
16.91 0.01
44.3 3.2
14.06 0.12
53.2
0.2
34.73 0.12
65.4 1.1 ;
11
16.90 0.15
47.5 3.0
14.18 0.09
53.0
0.2
34.85 0.08
67.5 2.2 '
21
16.75 0.29
50.5 2.9
14.27 0.06
52.8
0.8
34.93 0.04
69.7 2.8 ,
.1
31
16.46 0.41
53.4 2 6
14.83 0.03
52.5
0.4
34.97 0.01
72.0 2.1 ,
June
10
16.05 0.52
56.0 2.2
14.36 0.00
52.1
0.5
34.98 0.02
74.1 2.1 !
1
20
15.53 0.62
58.2 1.7
14.36 0.04
51.6
0.5
34.96 0.06
76.2 1.8 1
30
14.91 0.70
59.9 1.8
14.32 0.07
51.1
0.4
34.90 0.09
78.0 1.0
;july
10
14.21 0.71
61.2 0.7
14.25 0.09
50.7
0.5
34.81 0.12
79.6 1.2 ,
20
13.50 0.75
61.9 0.1
14.16 0.11
60.2
0.4
34.69 0.15
80.8 0.9 1
30
12.75 0.81
62.0 0.4
14.05 0.13
49.8
0.4
34.54 0.17
81.7 0.6 I
Aug.
9
11.94 0.81
61.6 1.0
13.92 0.14
49.4
0.4
34.87 0.18
82.3 0.2
19
11.13 0.79
60.6 1.5
13.78 0.15
49.0
0.8
34.19 0.19
82.5 0.2
29
10.34 0.74
59.1 2.0
13.63 0.14
48.7
0.2
3400 0.18
82.3 0.6
Sept
8
9.60 0.67
57.1 2.5
13.49 0.13
48.5
0.2
88.82 0.17
81.7 l.O
18
8.93 0.59
54.6 2.9
13.36 0.10
48.3
0.0
33.65 0.15
80.7 1.8
28
8.34 0.54
51.7 8.2
13.26 0.07
48.3
0.1
33.50 0.12
79.4 1.7
Oct.
8
7.80 0.42
48.5 8.5
13.19 0.03
48.4
08
33.38 0.08
77.7 2.0
18
7.38 0.24
45.0 8.7
13.16 0.02
48.7
0.5
33.30 0.04
75.7 2.3
28
7.14 0.11
41.8 8.8
13.18 0.06
49.2
0.7
33 26 0.01
73.4 2.6
Nov.
7
7.03 0.04
37.5 8.9
13.24 0.10
49.9
0.9
33.27 0.06
70.9 2.8
17
7.07 0.19
33.6 8.8
13.34 0.14
50.8
1.0
33.88 0.11
68.1 2.9
27
7.26 0.33
29.8 8.6
13.48 0.20
51.8
1.3
33.44 0.16
65.2 8.0
Dec.
7
7.59 0.46
26.2 8.4
13.68 0.24
53.1
1.4
33.60 0.21
62.2 2.9
17
8.06 0.59
22.8 8.2
13.92 0.27
64.6
1.6
88.81 0.25
69.8 8.0
27
8.64 0.70
19.6 2.6
14.19 0.30
56.1
1.8
34.06 0.28
66.3 2.7
87
9.34
17.0
14.49
57.9
34.34
63.6
FIXED STARS, 1855. 257
APPARENT PLACES OF THE PRINCIPAL FIXED
STARS, FOR THG UPPER
TRANSIT AT WASHINGTON.
Siderral
Day of th«
Muulh.
a 1
Sbrpsktis.
( Ureas Minoris.
/Jl Scorpii.
R.A.
Dec. North.
R.A.
Dec. North.
R.A.
Dec. South.
15
m.
37
O 1
6 52
h. m.
15 49
o
78
13
h.
15
m.
66
19 24
Jan. 1
6.04
0.80
61.1
2.1
16.78 0.75
62.0
n
2.8
58.69
0.80
1^.8 i'.o
11
6.34
0.30
59.0
2.0
17.53 0.92
59.2
2.4
58.99
0.31
16.8 1.2
21
6.64
0.80
57.0
1.8
18.45 1.03
56.8
1.9
59.30
0.33
18.0 1.2
31
6.94
0.31
55.2
1.6
19.48 1.09
54.9
1.3
59.63
0.34
19.2 1.2
Feb. 10
7.25
0.31
53.6
L3
20.57 1.12
53.6
0.7
59.97
0.83
20.4 1.2
20
7.56
0.30
52.3
1.0
21.69 1.10
52.9
0.0
60.30
0.82
21.6 1.1
March 2
7.86
0.29
51.3
0.7
22.79 1.09
52.9
0.7
60.62
0.31
22.7 1.1
12
8.15
0.27
50.6
0.3
23.88 0.97
53.6
1.3
60.93
0.29
23.8 0.9
22
8.42
0.24
50.3
0.1
24.85 0.85
54.9
1.8
61.22
0.28
24.7 0.8
April 1
8.66
0.21
50.4
0.3
25.70 0.70
56.7
2.3
61.50
0.26
25.5 0.7
11
8.87
0.19
50.7
0.6
26.40 0.64
59.0
2.7
61.76
0.28
26.2 0.6
21
9.06
0.16
51.3
1.0
26.94 0.38
61.7
3.0
61.99
0.20
26.8 0.4
May 1
9.22
0.14
52.3
1.2
27.32 0.19
64.7
3.1
62.19
0.18
27.2 0.3
11
9.36
0.11
53.5
1.3
27.51 0.03
67.8
3.2
62.37
0.15
27.5 0.3
21
9.47
0.07
M.8
1.3
27.54 0.17
71.0
3.2
62.52
0.11
27.8 0.2
31
9.54
0.04
56.1
1.4
27.37 0.35
74.2
3.0
62.63
0.08
28.0 0.1
June 10
9.58
0.01
57.5
L3
27.02 0.53
77.2
2.7
62.71
0.04
28.1 0.1
20
9.59
0.03
58.8
L3
26.49 0.69
79.9
2.4
62.75
0.00
28.2 0.1
30
9.56
0.06
60.1
1.1
25.80 0.83
82.3
2.0
62.75
0.03
28.3 0.0
July 10
9.50
0.08
61.2
0.9
24.97 0.89
84.3
1.5
62.72
0.07
28.3 0.1
20
9.42
0.10
62.1
0.8
24.08 0.98
85.8
0.9
62.65
0.10
28.2 0.1
30
9.32
0.12
62.9
0.6
23.10 1.08
86.7
0.4
62.55
0.13
28.1 0.2
Aug. 9
9.20
0.16
63.4
0.3
22.02 1.12
87.1
0.1
62.42
0.15
27.9 0.2
19
9.05
0.16
63.7
0.1
20.90 1.12
87.0
0.7
62.27
0.16
27.7 0.3
29
8.89
0.15
63.8
0.2
19.78 1.10
86.3
1.2
62.12
0.16
27.4 0.8
Sept. 8
8.74
0.14
63.6
0.3
18.68 1.07
85.1
1.7
61.96
0.16
27.1 0.4
18
8.60
0.18
63.3
0.6
17.61 1.02
83.4
2.2
61.80
0.14
26.7 0.3
28
8.47
0.10
62.7
0.9
16.59 0.92
812
2.6
61.66
0.11
26.4 0.3
Oct. 8
8.37
0.07
61.8
1.1
15.67 0.81
78.6
8.0
61.55
0.07
26.1 0.8
18
8.30
0.03
60.7
1.2
14.86 0.67
75.6
8.3
61.48
0.03
25.8 0.1
28
8.27
0.02
59.5
1.5
14.19 0.61
72.3
8.5
61.45
0.02
25.7 0.1
Nov. 7
8.29
0.07
58.0
1.7
13.68 0.28
68.8
8.7
61.47
0.07
25.8 0.2
17
8.36
0.12
56.3
1.9
13.40 0.09
65.1
8.7
61.54
0.12
26.0 0.2
27
8.48
0.17
54.4
2.0
13.31 0.10
61.4
8.7
61.66
0.16
26.2 0.4
Dec. 7
8.65
0.21
52.4
2.0
13.41 0.29
57.7
8.6
61.82
0.21
26.6 0.6
17
8.86
0.24
50.4
2.1
13.70 0.48
54.1
8.4
62.03
0.25
27.2 0.8
27
9.10
0.27
48.3
2.1
14.18 0.65
50.7
8.1
62.28
0.28
28.0 1.0
37
9.37
46.2
14.83
47.6
62.56
29.0
33
258 FIXED STARS, 1855.
APPARENT PLACB8 OP THE PRINCIPAL FIXED
STABS, FOR THE UPPER 1
TRANSIT AT WASHINGTON.
Sidereal
Dar of ihe
Month.
S Opbiuohi.
a Sooapii.
(Antarm.)
n
Drsoooif.
R.A.
Dec Sotuh.
R.A.
Dae. AbatfA.
R.A.
Ihc N^rtk,
h. m.
o
1
h. m.
o
1
h.
in.
0 1
16 6
3
19
16 20
26
6
16
22
61 50
Jan.
1
43.16 0.27
5.8
1.8
29.19 0.80
26.4
II
0.6
0.18
0.84
2^.6 i.2
11
43.43 0.29
7.6
1.6
29.49 0.82
21.0
0.7
0.47
0.40
19.4 S.9
21
43.72 0.81
9.2
1.6
29.81 0.83
21.7
0.9
0.87
0.45
16.5 2.4
31
44.03 0.81
10.8
1.5
30.14 0.84
22.6
0.9
1.32
0.49
14.1 1.8
Feb.
10
44.34 0.81
12.8
1.2
30.48 0.85
23.5
0.9
1.81
0.51
12.3 1.S
20
44.65 0.80
13.5
1.0
30.83 0.85
24.4
1.0
2.82
0.52
11.0 0.6
March 2|
44.95 0.29
14.5
0.8
31.18 0.88
25.4
1.0
2.84
0.51
10.4 0.1 1
1
12
45.24 0.28
15.3
0.5
31.51 0.32
26.4
0.9
8.35
0.49
10.5 0.7
22
45.52 0.27
15.8
0.2
31.83 0.80
27.3
0.8
8.84
0.45
11.2 1.8
April
1
45.79 0.25
16.0
0.0
32.13 0.29
28.1
0.8
4.29
0.40
12.5 ij
11
46.04 0.22
16.0
0.2
32.43 0.27
28.9
0.7
4.69
0.85
14.3 S.S
21
46.26 0.20
15.8
0.4
32.69 0.24
29.6
0.7
5.04
0.29
16.6 M
May
1
46.46 0.17
15.4
0.6
32.93 0.21
30.3
0.6
5.88
0.22
19.4 8.0
11
46.63 0.14
14.8
0.8
33.14 0.17
30.9
0.6
5.55
0.14
22.4 S.S
21
46.77 0.11
14.0
0.8
33.31 0.14
31.5
0.5
5.69
0.06
25.7 8.1
31
46.88 0.08
13.2
09
33.45 0.11
32.0
0.6
6.75
0.02
28.9 8.8
June
10
46.96 0.04
12.3
0.8
33.56 0.07
32.5
0.5
5.78
0.10
32.1 8.1 J
20
47.00 0.01
11.5
0.8
33.63 0.02
33.0
0.4
5.68
0.18
36.2 8.8 !
30
47.01 0.03
10.7
0.7
33.65 0.02
33.4
0.8
5.45
0.25
88.0 8.5
July
10
46.98 0.06
10.0
0.7
33.63 0.05
83.7
0.2
5.20
0.81
40.5 8.0
20
46.92 0.09
9.3
0.6
33.58 0.09
33.9
0.1
4.89
0.86
42.5 1.6
30
46.83 0.12
8.7
0.5
33.49 0.12
34.0
0.1
4.58
0.40
44.1 1.1 1
Aug.
9
46.71 0.14
8.2
0.4
33.37 0.15
34.1
0.1
4.13
0.43
45J2 0.5 1
19
46.57 0.15
7.8
0.2
33.22 0.17
34.0
0.2
8.70
0.45
45.7 0.2 1
29
46.42 0.16
7.6
0.1
83.05 0.18
83.8
0.2
325
0.46
459 0.S
Sept
8
46.26 0.15
7.5
0.0
82.87 0.17
33.6
0.8
2.79
0.45
45.4 1.8 1
18
46.11 0.14
7.5
0.2
82.70 0.15
33.3
0.4
2.34
0.48
44.2 1.6 1
28
45.97 0.12
7.7
0.3
32.55 0.18
32.9
05
1.91
0.89
42.6 8.0
Oct.
8
45.85 0.08
8.0
0.5
32.42 0.10
32.4
0.6
1.52
0.84
40.6 8.5
18
45.77 0.04
8.5
0.7
32.32 0.06
31.9
0.5
1.18
0.28
88.1 841 1
28
45.73 0.00
9.2
0.9
32.26 0.01
81.4
0.4
0.90
0.20
S5.3 8.8 :
Nov.
7
45.73 0.05
10.1
1.0
32.25 005
31.0
0.8
0.70
0.12
32.1 8.4
17
47.78 0.09
11.1
1.2
32.30 0.10
30,7
0.2
0.58
0.04
2a7 8.7 1
27
45.87 0.14
12.3
1.5
32.40 0.15
30.5
0.0
0.54
0.05
25.0 8.7 '
Dec.
7
46.01 0.18
13.8
1.6
82.55 0.20
80.5
0.2
0.59
0.18
21.8 8.7 ,
1
17
46.19 0.22
15.3
1.7
82.75 0.24
80.7
0.8
0.72
0.22
17.6 8.7 ;
27
46.41 0.26
17.0
1.7
82.99 0.28
31.0
0.5
0.94
0.80
13.9 8.8
87
46.67
18.7
88.27
81.5
1.24
10.6
FIXBD STARS, 1855.
259
APPARENT PLACES OF TUB PRINCIPAL FIXED STARS, FOR THE UPPER
TRANSIT AT WASHINGTON.
Sidutml
a Triftngoli
AustnOis.
• Vnm Minoris.
a 1
EIbscvlis.
Iky of Um
Idooth.
K.A.
RJL
Dec North.
B.A.
Dec. North.
h. m.
o
1
h. m.
O 1
h.
m.
O 1
16 33
68
45
17 0
82 15
17
8
14 33
Jan.
I
16.35 0.59
4.5
II
1.6
51.90 0.66
5^.5 8.3
0.25
••
0.22
N II
25.1 2.8
11
16.94 0.67
5.0
1.1
52.56 0.91
50.2 8.0
0.47
0.25
22.8 2.2
21
17.61 0.72
3.9
0.7
53.47 1.17
47.2 2.6
0.72
0.27
20.6 2.0
81
18.33 0.75
3.2
0.8
54.64 1.86
44.6 2.2
0.99
0.28
18.6 1.8
Feb.
10
19.08 0.76
2.9
0.1
55.99 1.62
42.4 1.6
1.27
0.29
16.8 1.4
20
19.84 0.77
8.0
0.5
57.51 1.55
40.8 0.9
1.56
0.80
15.4 1.0
March 2|
20.61 0.76
3.5
0.9
59.06 1.61
39.9 0.2
1.86
0.80
14.4 0.6
12
21.37 0.74
4.4
1.2
60.67 1.58
39.7 0.4
2.16
0.29
13.8 0.2
22
22.11 0.71
5.6
1.6
62.25 1.62
40.1 1.0
2.45
0.80
13.6 0.2
April
1
22.82 0.67
7.2
1.9
63.77 1.88
41.1 1.6
2.75
0.27
13.8 0.6
11
23.49 0.62
9.1
2.1
65.15 1.18
42.7 2.1
3.02
0.26
14.4 1.0
21
24.11 0.55
11.2
2.4
66.33 0.94
44.8 2.6
3.28
0.24
15.4 1.4
May
1
24.66 0.47
13.6
2.6
67.27 0.69
47.4 8.0
3.52
0.22
16.8 1.6
11
25.13 0.89
16.2
2.7
67.96 0.40
50.4 8.2
3.74
0.19
18.4 1.8
21
25.52 0.80
18.9
2.8
68.36 0.14
53.6 8.8
3.93
0.15
20.2 2.0
31
25.82 0.20
21.7
2.8
68.50 0.14
56.9 8.4
4.06
0.12
22.2 2.0
June
10
26.02 0.09
24.5
2.8
68.36 0.44
60.3 8.8
4.20
0.0S
24.2 1.9
20
26.11 0.01
27.3
2.6
67.92 0.72
63.6 8.1
4.28
0.04
26.1 1.9
30
26.10 0.12
29.9
2.4
67.20 0.96
66.7 2.8
4.32
0.00
28.0 1.8
July
10
25.98 0.22
32.3
2.1
66.24 1.14
69.5 2.4
4.32
0.04
29.8 1.6
20
25.76 0.81
34.4
1.8
65.10 1.88
71.9 1.9
4.28
0.08
31.4 1.8
30
25.45 0.89
36.2
1.8
63.72 1.64
73.8 1.5
4.20
0.11
32.7 1.1
Aug.
9
25.06 0.45
37.5
0.9
62.18 1.68
75.3 1.0
4.09
0.14
33.8 0.8
19
24.61 0.48
38.4
0.4
60.50 1.76
76.3 0.6
3.95
0.16
34.6 0.5
29
24.13 0.50
388
0.1
58.74. 1.82
7&8 0.1
3.79
0.18
35.1 0.2
Sept
8
23.63 0.49
38.7
0.6
56.92 1.85
76.7 0.6
3.61
0.18
35.3 0.0
18
23.14 0.46
38.1
1.1
55.07 1.80
76.1 1.1
3.43
0.17
35.3 0.8
28
22.68 0.41
37.0
1.5
53.27 1.72
75.0 1.6
8.26
0.16
35.0 0.7
Oct.
8
22.27 0.84
35.5
1.9
51.55 1.61
73.4 2.1
8.10
0.14
34.3 1.0
18
21.93 0.24
33.6
2.1
49.94 1.47
71.3 2.6
2.96
0.11
83.3 1.8
28
21.69 0.12
81.5
2.4
48.47 1.27
68.8 2.9
2.85
0.07
32.0 1.6
Nov.
7
21.57 0.00
29.1
2.4
47.20 1.06
65.9 8.2
2.78
0.02
30.4 1.8
17
21.57 0.12
26.7
2.6
46.14 0.78
62.7 8.4
2.76
0.02
28.6 2.0
27
21.69 0.24
24.2
2.4
45.36 0.48
59.3 8.6
2.78
0.07
26.6 2.1
Dec.
7
21.93 0.85
21.8
2.2
44.88 0.15
55.7 8.7
2.85
0.11
24.5 2.2
17
22iJ8 0.45
19.6
2.0
44.73 0.15
52.0 8.7
2.96
0.15
22.3 2.8
27
22.73 0.55
17.6
1.7
44.88 0.44
48.3 8.5
3.11
0.19
20.0 2.4
37
23.28
15.9
45.32
44.8
3.30
-
17.6
260
FIXED STARS) 1855.
AFPABENT PLACES OF THE PRINCIPAL FIXED 8TAB8, FOB THE UPPBB
TRANSIT AT WASHINOTON.
SMtraal
Day ot tha
Mouth.
f Dbaoonm.
a Ophiuohi.
c Ocuntis.
1
B.A.
DecAbrfA.
RA.
Dec. North.
RJL
VncSouth.
h. m.
17 27
1
52 24
h. ra.
17 28
1§ 39
h.
17
89 16
Jan.
Feb.
1
11
21
31
10
7.11 0.21
7.32 0.26
7.57 0.81
7.88 0.87
8.25 0.40
2^.0 8.6
23.4 8.2
20.2 2.8
17.4 2.4
15.0 1.9
10.26 0.20
10.46 0.23
10.69 0.25
10.94 0.27
11.21 0.28
61.5
59.3
57.2
55.2
53.5
2.2
2.1
2.0
1.7
1.4
36 50.95 10.89
87 1.8418.54
37 15.38 15.92
37 81.30 17.93
37 49.23 19.24
32''.92.7
30.22.5
27.7 2.1
25.6 1.7
23.91.8
20
March 2
12
22
April 1
8.65 0.40
9.05 0.41
9.46 0.41
9.87 0.41
10.28 0.38
13.1 1.8
11.8 0.7
11.1 0.1
11.0 0.5
11.5 1.2
11.49 0.80
11.79 0.80
12.09 0.80
12.39 0.29
12.68 0.28
52.1
51.0
50.3
50.1
50.3
1.1
0.7
0.2
0.2
0.6
38 8.€7S0.22
3828.6920.87
3849.5620.70
3910.2620.49
39 30.75 19.85
22.60.8
21.80.8
21.50.1
21.60.6
22.2 1.1
May
11
21
1
11
21
10.66 0.88
10.99 0.80
11.29 0.27
11.56 0.23
11.79 0.17
12.7 1.8
14.5 2.2
16.7 2.6
19.3 8.0
22.3 8.2
12.96 0.27
13.23 0.26
13.48 0.23
13.71 0.20
18.91 0.17
50.9
51.9
53.2
54.7
56.4
1.0
1.8
1.6
1.7
1.9
39 50.10 18.78
40 8.8816.72
40 25.60 14.65
4040.2512.63
40 52.88 10.16
23.31.5
24.8 2.0
26.8 2.8
29.12.7
31.8 3.0
June
July
81
10
20
30
10
11.96 0.11
12.07 0.05
12.12 0.02
12.10 0.08
12.02 0.14
25.5 8.8
28.8 8.8
32.1 8.2
35.3 2.9
38.2 2.8
14.08 0.14
14.22 0.11
14.33 0.07
14.40 0.08
14.43 0.02
58.3
60.3
62.3
64.1
65.8
2.0
2.0
1.8
1.7
1.5
41 3.04 7.84
4110.38 4.HS
4115.21 1.64
4116.85 1.56
4115.29 4.72
34.83.1
37.9 3.2
41.1 8.3 i
44.4 3.2
47.68.1 1
Aug.
20
30
9
19
29
11.88 0.19
11.69 0.25
11.44 0.29
11.15 0.82
10.83 0.84
41.0 2.8
43.3 1.9
45.2 1.4
46.6 0.9
47.5 0.4
14.41 0.06
14.35 0.10
14.25 0.18
14.12 0.15
13.97 0.17
67.8
68.6
69.7
70.6
71.3
1.3
1.1
0.9
0.7
0.4
41 10.57 7.09
41 3.48 9.98
40 53.50 11.85
40 4 1.65 18.82
4027.83 15.08
50.7 2.8 1
53.52.5
56.02.0 1
58.0 1.5 1
59.50.9
Sept
Oct
8
18
28
8
18
10.49 0.35
10.14 0.35
9.79 0.33
9.46 0.81
9.15 0.27
47.9 0.1
47.8 0.6
47.2 1.0
46.2 1.5
44.7 2.0
13.80 0.18
13.62 0.18
13.44 0.17
13.27 0.15
13.12 0.11
71.7
71.7
71.4
70.8
70.0
0.0
0.3
0.6
0.8
1.0
40 12.80 15.82
39 56.98 16.26
3940.72 15.46
3925.27 14.51
39 10.76 12.53
60.40.8 ;
60.70.3 I'
60.40.9 1
59.51.4
58.1 1.9
Nov.
Dec.
28
7
17
27
7
8.88 0.22
8.66 0.16
8.50 0.10
8.40 0.03
8.37 0.08
42.7 2.4
40.3 2.8
37.5 8.1
34.4 3.4
31.0 8.6
13.01 0.08
12.93 0.04
12.89 0.00
12.89 0.06
12.94 0.10
69.0
67.7
66.1
64.2
62.1
1.8
1.6
1.9
2.1
2.1
38 58.23 10.86
3847.87 7.50
38 40.37 4.47
3835.90 0.77
3835.13 2.48
56.22.4
53.82.8 1
51.03.0 .
48.03.1 1
44.98.1'
1
1
1
17
27
irr
8.40 0.10
8.50 0.17
8.67
27.5 8.6
24.0 8.4
20.6
13.04 0.14
13.18 0.18
13.36
60.0
57.8
55.6
2.2
2.2
[1
3837.61 5.66 41.8 8.1 '|
3843.27 8.63 88 7 2.9
38 51.90 35.8 ;
FIXED STARS, 18ft ft. 261
APPARENT PLACES
OF THE PRINCIPAL FIXED
STARS, FOR THE tTPPfiR!
TRANSIT AT WASHINGTON.
Sidereal
Dajr of itw
Moatb.
y Dkacomis.
^1 SagittuiL
a Lt&s.
(Vega.)
R.A.
Vtc. North.
R.A.
Dm. South.
R.A.
Pec. North.
h. m.
O 1
h. m.
o
1
h. ni.
O 1
17 53
51 30
18 6
21
5
18 31
38 38
Jan.
1
11.95 0.16
18.0 8.4
8.20 0.21
87:4
0.8
59.44 0.12
56.7 3.1
11
12.11 0.22
14.6 8.2
3.41 0.28
37.7
0.3
59.56 0.16
53.6 3.0
21
12.33 0.29
11.4 8.0
3.64 0.26
38.0
0.3
59.72 0.23
50.6 2.8
31
12.62 0.38
8.4 2.6
3.90 0.28
38.3
0.8
59.95 0.26
47.8 2.5
Feb.
10
12.95 0.86
5.8 2.1
4.18 0.80
38.6
0.8
60.21 0.28
45.3 2.2
20
13.31 0.88
3.7 1.6
4.48 0.82
38.9
0.2
60.49 0.30
43.1 1.7
March 2 I
13.69 0.40
2.1 1.0
4.80 0.82
39.1
0.2
60.79 0.82
41.4 1.2
12
14.09 0.40
1.1 0.4
5.12 0.82
39.8
0.0
61.11 0.84
40.2 0.6
22
14.49 0.40
0.7 0.8
5.44 0.82
39.3
0.0
61.45 0.84
39.6 0.1
April
1
14.89 0.89
1.0 1.0
5.76 0.82
39.3
0.1
61.79 0.83
39.5 0.6
11
15.28 0.86
2.0 1.6
6.08 081
39.2
0.2
62.12 0.81
40.1 1.1
,
21
15.64 0.88
3.6 2.1
6.39 0 80
39.0
0.2
62.43 0.80
41.2 1.6
May
1
15.97 0.29
5.7 2.4
6.69 0.29
38.8
0.2
62.73 0.30
42.8 2.1
11
16.26 0.26
8.1 2.8
6.98 0.27
38.6
0.8
63.03 0.27
44.9 2.5
21
16.52 0.21
10.9 8.1
7iJ5 0.24
38.3
0.3
63.30 0.23
47.4 2.9
31
16.73 0.15
44.0 8.8
7.49 0.20
38.0
0.2
63.53 0.19
50.3 8.0
June
10
16.88 0.09
77.3 8.4
7.69 0.17
37.8
0.1
63.72 0.15
53.3 8.1
1
20
16.97 0.02
20.7 8.8
7.86 0.13
37.7
0.1
63.87 0.10
56.4 3.1
30
16.99 0.04
24.0 8.2
7.99 0.08
37.6
0.0
63.97 0.05
59.5 8.1
July
10
16.95 0.10
27.2 2.9
8.07 0.03
37.6
00
64.02 0.01
62.6 2.9
20
16.85 0.16
30.1 2.6
8.10 0.02
37.6
0.1
64.01 0.06
65.5 2.7
30
16.69 0.22
32.7 2.2
8.08 0.06
37.7
0.1
63.95 0.11
68.2 2.4
Aug.
9
16.47 0.25
34.9 1.7
8.02 0.10
37.8
0.2
63.84 0.15
70.6 2.0
19
16.22 0.28
36.6 1.2
7.92 0.13
38.0
0.1
63.69 0.18
72 6 1.5
29
15.94 0.31
37.8 0.8
7.79 0.15
38.1
0.1
63.51 0.20
74.1 1.1
Sept
8
15.63 0.84
38.6 0.8
7.64 0.17
38.2
0.2
63.31 0.24
75.2 0.7
18
15.29 0.84
38.9 0.2
7.47 0.17
38.4
0.1
63.07 0.25
75 9 0.8
28
14.95 0.84
38.7 0.7
7.30 0.17
38.5
0.1
62.82 0.25
76.2 0.2
Oct
8
14.61 0.32
38.0 1.2
7.13 0.15
38.4
0.0
62.57 0.24
76.0 0.7
18
14.29 0.80
36.8 1.7
6.98 0.12
38.4
0.0
62.33 0.24
75.3 1.1
28
13.99 0.25
35.1 2.1
6.86 0.09
38.4
0.0
62.09 0.21
74.2 1.5
Nov.
7
13.74 0.19
33.0 2.5
6.77 0.05
38.4
0.0
61.88 0.16
72.7 1.9
17
13.55 0.13
30.5 2.9
6.72 0.00
38.4
0.0
61.72 0.10
70.8 2.3
27
13.42 0.07
27.6 8.2
6.72 0.05
38.4
0.0
61.62 0.05
68.5 2.6
Dec.
7
13.35 0.01
24.4 8.4
6.77 0.09
38.4
0.1
61.57 0.01
65.9 2.8
17
13.34 0.06
21.0 8.4
6.86 0.14
38.5
0.2
61.56 0.04
63.1 8.0
27
13.40 0.13
17.6 374
7.00 0.18
38.7
0.2
61.60 0.09
60.1 3.1
1 r-
37
13.53
14.2
7.18
38.9
61.69
57.0
262
FIXED STARS, 1855.
APPAHKNT PLACES OF THE PBDJCIPAL FIXED
STABS, FOB THE UPPEbI
TRANSIT AT WASHINOTON.
SUmtl
f Lti
LB.
C Aquila.
S Aquils.
DMoftha
B.A.
Vt^. North,
R.A.
Dec North.
R.A.
Dec North.
h.
m.
.
h. in.
o
.
h.
m.
o . !
18
44
33 11
18 58
13 38
19
18
2 49 ,
Jan.
1
41.36
0.11
41.6
2.9
42.58 0.12
57.5
n
2.0
9.11
0.10
37.4 r.4
11
41.47
0.15
38.7
2.8
42.70 0.15
55.5
2.0
9.21
0.14
36.0 1.4
.21
41.62
0.19
35.9
2.7
42.85 0.18
53.5
1.9
9.35
0.17
34.6 1.3 1
31
41.81
0.22
33.2
2.4
43.03 0.20
51.6
1.7
9.52
0.19
33.8 1.2 ,
Feb.
10
42.08
0.25
30.8
2.1
43.23 0.28
49.9
1.6
9.71
0.22
32.1 1.0
20
42.28
0.28
28.7
1.7
43.46 0.25
48.4
1.2
9.93
0.24
81.1 0.7
March 2
42.56
0.80
27.0
1.2
43.71 0.27
47.2
0.8
10.17
0.26
30.4 0.4
12
42.86
0.S2
25.8
0.7
43.98 0.29
46.4
0.4
10.43
0.28
30.0 0.1
22
43.18
0.82
25.1
0.1
44.27 0.29
46.0
0.0
10.71
0.29
29.9 0.2
April
1
48.50
0.82
25.0
0.6
44.56 0.80
46.0
0.5
11.00
0.80
80.1 0.9
11
43.82
0.82
25.5
1.0
44.86 0.80
46.5
0.9
11.30
0.80
30.6 0.8
21
44.14
0.82
26.5
1.5
45.16 0.29
47.4
1.8
11.60
0.80
31.4 1.1
May
1
44.46
0.80
28.0
2.0
45.45 0.29
48.7
1.6
11.90
0.29
32.5 I.S
11
44.76
0.27
30.0
2.8
45.74 0.27
60.8
1.8
12.19
0.29
33.8 1.5
21
45.03
0.24
32.3
2.6
46.01 0.25
52.1
2.0
12.48
0.27
36.3 1.7
81
45.27
0.21
34.9
2.9
46.26 0.22
54.1
2.1
12.75
0.24
37.0 1.7
June
10
45.48
0.17
37.8
8.0
46.48 0.19
56.2
2.2
12.99
0.21
38.7 IJ
20
45.65
0.12
40.8
8.0
46.67 0.15
58.4
2.2
13.20
0.18
40.5 1.7
30
45.77
0.07
43.8
2.9
46.82 0.10
60.6
2.2
13.38
0.18
42.2 1.6
July
10
45.84
0.02
46.7
2.8
46.92 0.06
62.8
2.0
13.51
0.08
43.8 1.5
20
45.86
0.04
49.5
2.6
4698 0.01
64.8
1.8
13.59
0.04
45.3 1.4
30
45.82
O.OS
52.1
2.8
46.99 0.08
66.6
1.6
13.63
0.00
46.7 1.2
Aug.
9
45.74
0.12
54.4
1.9
46.96 007
68.2
1.4
13.63
0.04
47.9 1.0 1
19
45.62
0.16
56.3
1.5
46.89 0.11
69.6
1.1
13.59
0.08
48.9 0.8 '
29
45.46
0.20
57.8
1.2
46.78 0.14
70.7
0.8
13.51
0.12
49.7 0.« '
Sept
8
45.26
0.22
59.0
0.8
46.64 0.16
71.5
0.5
13.39
0.14
50.3 0.S
18
45.04
0.28
59.8
0.4
46.48 0.18
72.0
0.2
13.25
0.16
60.6 0.1
28
44.81
0.28
60.2
0.1
46.30 0.18
72.2
0.1
13.09
0.16
60.7 0.1 1
Oct
8
44.58
0.22
60.1
0.6
46.12 0.17
72.1
0.8
12.93
0.16
50.6 0.8 '
18
44.36
0.20
59.5
1.0
45.95 0.16
71.8
0.6
12.77
0.15
50.8 0.5 '
l'
28
44.16
0.18
58.5
1.4
45.79 6.13
71.2
0.9
12.62
0.18
49.8 0.«
Nov.
7
43.98
0.14
57.1
1.7
45.66 0.10
70.8
1.2
12.49
0.10
49.2 0.8 ,
;
n
43.84
0.10
55.4
2.0
45.56 0.07
69.1
1.4
12.39
0.06
48.4 1.0 li
1
27
43.74
0.05
53.4
2.8
45.49 0.08
67.7
1.6
12.33
0.08
47.4 i.i '
Dec.
7
48.69
0.01
51.1
2.6
45.46 0.01
66.1
1.8
12.30
0.00
46.3 IJ I
17
27
43.68
0.08
48.5
2.8
45.47 0.05
64.3
1.9
12.30
0.04
45.1 IJ
43.71
0.08
45.7
%S
45.52 0.09
62.4
2.0
12.34
0.08
438 I.S
87
43.79
42.8
45.61
60.4
12.42
42.5
FIXED STARS, 1855. 263
APPARENT PLACES (
OF THE PRINCIPAL FIXED
STARS, FOR THE UPPBR^
TRANSIT AT WASHINGTON.
Day oflhe
MoqUl
y
A^VllM.
a AquiUI.
iAUair,)
/f Aquila.
R.A.
lhcN9rth,
R.A.
D6ciVbft4.
R.A.
D^ North,
h.
m.
o
1
h. ra.
o
«
h.
m.
O 1
19
39
10
15
19 43
8
29
19
48
6 02
Jan.
1
19.89 0.06
3^.9
1.7
40.35 0.06
11-.6
N
1.6
9.38
a.
0.07
43.4 1.6
11
19.97
0.11
38.2
1.7
40.43 0.11
10.0
1.6
9.45
0.10
41.9 1.4
21
20.08
0.14
36.5
1.7
40.54 0.14
8.4
1.6
9.55
0.14
40.5 1.4
31
20.22 0.17
34.8
1.6
40.68 0.17
6.9
1.4
9.69
0.17
39.1 1.8
Feb.
10
20.39
0.20
33.8
1.8
40.85 0.20
5.5
1.2
9.86
0.19
37.8 i.i
20
20.59
0.23
32.0
1.0
41.05 0.22
4.3
1.0
10.05
0.22
36.7 0.8
March 2 I
20.82
0.25
31.0
0.7
41.27 0.24
8.3
0.6
10.27
0.25
35.9 0.6
12
21.07
0.26
30.3
0.8
41.51 0.26
2.7
0.8
10.52
0.26
35.3 0.8
22
21.33
0 28
30.0
0.0
41.77 0.28
2.4
0.1
10.78
0.27
35.0 0.2
April
1
21.61
0.29
30.0
0.4
42.05 0.29
2.5
0.5
11.05
0.29
35.2 0.4
11
21.90
0.80
30.4
0.8
42.34 0 80
3.0
0.8
11.34
0.80
35.6 0.8
21
22.20
0.31
31.2
1.2
42.64 0 31
8.8
1.1
11.64
0.81
36.4 1.2
May
1
22.51
0.30
32.4
1.5
42.95 0.81
4.9
1.4
11.95
0.30
37.6 1.4
11
22.81
0.29
33.9
1.8
43.26 0 80
6.3
1.8
12.25
0.80
39.0 1.6
21
23.10
0.27
35.7
2.0
43.56 0.28
8.1
2.0
12.55
0.28
40.6 1.8
31
23.37
0.26
37.7
2.1
43.84 0.26
10.1
2.1
12.83
0.26
42.4 2.0
June
10
23.63
0.23
39.8
2.1
44.10 023
12.2
2.0
13.09
0.24
44.4 2.0 1
20
23.86
0.19
41.9
2.1
44.33 0 19
14.2
2.1
13.33
0.20
46.4 1.9
30
24.05
0.15
44.0
2.1
44.52 0.15
16.3
2.0
13.53
0.16
48.8 1.9
July
10
24.20
0.10
46.1
2.0
44.67 0.11
18.3
1.9
13.69
0.11
50.2 1.8
20
24.30
0.05
48.1
1.8
44.78 0.06
20.2
1.8
13.80
0.07
52.0 1.6
30
24.35
0.01
49.9
1.6
44.84 0.02
22.0
1.6
13.87
0.02
53.6 1.4
Aug.
9
24.36
0.08
51.5
1.4
44.86 0.03
23.6
1.4
13.89
0.02
55.0 1.2
19
24.33
0.08
52.9
1.1
44.83 0.07
25.0
1.1
13.87
0.07
56.2 1.0
29
24.25
0.11
54.0
0.9
44.76 0.11
26.1
0.8
13.80
0.10
57.2 0 7
Sept
8
24.14
0.14
54.9
0.7
44.65 0.14
26.9
0.5
13.70
0.13
57.9 0.6
18
24.00
0.16
55.6
0.4
44.51 0.15
27.4
0.8
13.57
0.15
58.4 0.8
28
23.84
0.16
56.0
0.1
44 36 0.16
27.7
0.1
13.42
0.16
58.7 0.1
Oct
8
23.68
0.17
56.1
0.2
44.20 0.16
27.8
0.1
ISM
0.16
58.8 0.2
18
23.51
0.16
65.9
0.6
44.04 0.16
27.7
0.4
13.10
0.16
58.6 0.4
28
23.35
0.14
55.4
0.7
43.89 0.14
27.3
0.6
12.95
0.14
58.2 0.6
Nov.
7
23.21
0.12
54.7
0.9
43.75 0.12
26.7
0.8
12.81
0.12
57.6 0 8
17
23.09
0.08
53.8
1.1
43.63 0.08
25.9
1.0
12.69
0.08
56.8 1.0
27
23.01
0.06
52.7
1.8
43.55 0.05
24.9
1.2
12.61
0.05
55.8 1.1
Dec.
7
22.96
0.02
51.4
1.6
43.50 0.02
23.7
1.4
12.56
0.02
54.7 1.8
17
22.94
0.02
49.9
1.6
43.48 0.02
22.3
1.5
12.54
0.02
53.4 1.4
27
22.96
0.06
48.3
1.6
43.50 0.05
20.8
1.6
12.56
0.04
52.0 1.4
37
23.02
46.7
43.55
19.2
12.60
50.6
264
FIXED STARS, 1855.
APPARENT PLACES OF
THE
PRINCIPAL FIXED STARS, FOR TIIE UPPER
TRANSIT AT WASHINGTON.
StdeiMl
Dfty of the
MoDih.
X Urs» MinorU.
«»• Capsicorni.
a Paronit.
R.A.
Dec. North.
R.A.
Dec Simlh.
ILA.
1
Dec. SoMlA. 1
h.
20
88
52
h. m.
20 9
12 69
h m.
20 14
O 1
57 11
Jan.
Feb.
1
11
21
31
10
7 31.57
7 26.08
7 22.80
7 21.69
7 22.94
5.49
3.28
1.11
1.26
8.29
32'.8
30.0
26.9
23.7
20.5
11
0.28
0.81
0.32
0.82
0.80
58.31 0.07
58.38 0.10
58.48 0.14
58.62 0.17
58.79 0.20
36.6 0.8
36.9 0.4
37.3 0.8
37.6 0.2
37.8 0.1
6.01 0.08
6.09 0.14
6.23 0.20
6.43 0.27
6.70 0.84
55.0 2.2
52.8 2.8
50.5 2.8
48.2 2.3
45.9 2.3
20
March 2
12
22
April 1
7 26.28
7 31.47
7 38.49
7 46.61
7 56.38
6.24
7.02
8.12
9.72
10.08
17.5
14.8
12.4
10.4
8.9
0.27
0.24
0.20
0.16
0.09
58.99 0.22
59.21 0.24
59.45 0.26
59.71 0.28
59.99 0.30
37.9 0.0
37.9 0.2
37.7 0.4
37.3 0.6
36.7 0.7
7.04 0.38
7.42 0.41
7.83 0.46
8.28 0.48
8.76 0 60
43.6 2 2
41.4 2.1
39.3 1.9
37.4 1.7
85.7 l^
May
11
21
1
11
21
8 6.36
8 17.09
8 26.84
8 36.52
8 45.34
10.78
9.75
9.68
8.82
7.82
8.0
7.7
8.0
8.9
10.4
0.03
0.03
0.09
0.15
0.21
60.29 0 80
60.59 0.31
60.90 0.81
61.21 0.82
61.53 0.81
36.0 0.9
35.1 1.1
34.0 1.2
32.8 1.2
31.6 1.8
9.26 0.53
9.79 0.64
10.33 0.63
10.86 0.63
11.89 0.60
34.2 1.2
33.0 0.9
32.1 0.5
31.6 0.3
31.3 0.2
] June
July
31
10
20
30
10
8 53.16
8 59.48
9 4.09
9 7.09
9 8.32
6.82
4.61
8.00
1.28
0.68
12.5
15.0
17.9
21.1
24.5
0.26
0.29
0.32
0.84
0.86
61.84 0.29
62.13 0.27
62.40 0.21
62.64 0.19
62.83 0.15
30.3 1.2
29.1 1.2
27.9 1.1
26.8 1.0
25.8 0.9
11.89 0.47
12.36 0.41
12.77 0.87
13.14 0.82
13.46 0.25
31.5 0.5
32.0 0.9
32.9 1.2
34.1 1.6
35.6 1.8
Aug.
20
30
9
19
29
9 7.74
9 5.33
9 1.06
8 55.14
8 47.83
2.41
4.27
6.92
7.81
9.01
28.0
31.5
34.9
38.1
41.1
0.86
0.84
0.32
0.80
0.28
62.98 0.11
63.09 0.05
63.14 0.01
63.15 0.04
63.11 0.0H
249 0.7
24.2 0.6
23.7 0.8
23.4 0.1
23.3 0.0
18.71 0.16
13.87 0.08
13.95 0.00
13.95 0.07
13.88 0.14
37.4 2.0
39.4 2.0
41.4 2.0
43.4 2.0
45.4 1.9
Sept
Oct
8
18
28
8
18
8 38.82
8 28.92
8 17.74
8 5.72
7 63.11
9.90
11.18
12.02
12.61
12.81
43.9
46.4
48.5
50.1
51.1
0.26
0.21
0.16
0.10
0.06
63.03 0.11
62.92 0.18
62.79 0.15
62.64 0.15
62.49 0.15
23.3 0.0
23.3 0.1
23.4 0.2
23.6 0.2
23.8 0^
13.74 0.19
13.55 0.26
13.29 0.29
13.00 0.80
12.70 0.80
47.3 1.7
49.0 1.6
50.5 1.2 ;
51.7 0.6
52.2 0.2
Nov.
Dec.
28
7
17
27
7
7 40.30
7 27.16
7 14.49
7 2.37
6 51.39
18.14
12.67
12.12
10.98
10.07
51.6
51.6
51.1
50.2
48.8
0.00
0.06
0.09
0.14
0.19
62.34 0.13
62.21 0.12
62.09 0.09
62.00 0 05
61.95 0.02
24.1 0.3
24.4 0.3
24.7 0.8
25.0 0.4
25.4 0.4
12.40 0.80
12.10 0.26
11.84 0.22
11.62 0.17
11.45 0.09
52.4 0.1
52.3 0.6
51.7 1.0
60.7 1.4
49.3 1.6
17
27
37
6 41.32
6 32.82
6 26.43
8.60
6.89
46.9
44.5
41.8
0.24
0.27
61.93 0.01
61.94 0.04
61.98
25.8 0.4
26.2 0.4
26.6
11.86 0.03
11.83 0.04
11.87
47.7 1.8
45.9 2.1
43.8
FIXED STARS, 1855.
265
APPAHENT PLACES
OF THE PRINCIPAL FIXED STABS, FOB THE UPPEB
TBANSIT AT WASHINGTON.
SidMWl
4
» Ctoni.
61» Cyohi. 1
C Cygm.
Dftjr ot
Mon
niH
*
111.
R.A
IhcNirth,
R.A.
V9C North.
R.A.
D9C North.
h.
m.
o
1
h. m.
O 1
h. m.
O 1
20
36
44
45
21 00
38 01
21 06
29 37
Jan.
1
26.95
0.05
4^.8
M
2.7
21.89 0.04
78.9 2".4
43.93 0.03
60.6 2.2
11
26.90
0.00
46.6
2.8
21.85 0.00
76.5 25
43.90 0.00
58.4 2.2
21
26.90
0.05
43.8
2.8
21.85 0.04
74.0 2.6
43.90 0.04
56.2 2.8
31
26.95
0.10
41.0
2.8
21.89 0.06
71.4 2.5
43.94 0.08
53.9 2.8
Feb.
10
27.05
0.15
38.2
2.7
21.97 0.13
68.9 2.3
44.02 0.11
51.6 2.1
20
27.20 0.19
35.5
2.4
22.10 0.17
66.6 2.1
44.13 0.14
49.5 1.9
March 2 1
27.39
0.23
33.1
2.0
22.27 0.20
64.5 1.9
44.27 0.19
47.6 1.6
12
27.62
0.27
31.1
1.6
22.47 0.25
62.6 1.5
44.46 0.22
46.0 1.2
22
27.89
0.31
29.5
1.2
22 72 0.28
61.1 1.0
44.68 0.25
44.8 0.8
April
1
28.20
0.34
28.3
0.6
23.00 0.81
60.1 0.4
44.93 0.28
44.0 0.3
11
28.54 0.86
27.7
0.0
23.31 0.33
59.7 0.1
45.21 0.30
43.7 0.2
21
28.90
0.38
27.7
0.6
23.64 0 36
59.8 0.6
45.51 0.32
43.9 0.7
May
1
29.28
0.38
283
1.2
24.00 0.37
60.4 1.2
45.83 0.33
44.6 1.2
11
29.66
0.88
29.5
1.7
24.37 0 36
61.6 1.8
46.16 0.34
45.8 1.6
21
30.04
0.36
31.2
2.2
24.73 0.86
63.4 2.2
46.50 0.34
47.4 2.1
i
31
50.40
0.33
33.4
2.7
25.09 0.34
65.6 2.6
46.84 0.32
49.5 2.4
June
10
30.73
0.80
36.1
3.1
25.43 0.32
68.2 2.9
47.16 0.30
51.9 2.7
20
31.03
0.25
39.2
3.3
25.75 0.28
71.1 3.1
47.46 0.26
54.6 2.8
30
31.28
0.20
42.5
8.4
26.03 0.28
74.2 8.8
47.72 0.22
57.4 2.9
July
10
31.48
0.14
45.9
8.5
26.26 0.18
77.5 8.4
47.94 0.18
60.3 3.0
20
31.62
O.OS
49.4
3.5
26.44 0.13
80.9 8.3
48.12 0.13
63.3 3.0
30
31.70
0.02
52.9
8.8
26.57 0.07
84.2 3.2
48.25 0.08
66.3 2.9
Auir.
9
31.72
0.04
56.2
8.1
26.64 0.02
87.4 3.1
48.33 0.03
69.2 2.6
o
19
31.68
0.09
59.3
2.9
26.66 0.03
90.5 2.8
48.36 0.02
71.8 2.4
29
31.59
0.14
62.2
2.5
26.63 0.08
93.3 2.5
48.34 0.07
74.2 2.2
Sept.
8
31.45
0.18
64.7
2.1
26.55 0.12
95.8 2.2
48.27 0.11
76.4 1.9
r
18
81.27
0.22
66.8
1.7
26.43 0.16
98.0 1.9
48.16 0.13
78.3 1.5
28
31.05
0.24
68.5
1.2
26.27 0.18
99.9 1.5
48.03 0.15
79.8 1.1
Oct
8
30.81
0.25
69.7
0.8
26.09 0.20
101.4 1.0
47.88 0.17
80.9 0.7
18
30.56
0.26
70.5
0.3
25.89 0.20
102.4 0.6
47.71 0.19
81.6 0.3
28
30.30
0.25
70.8
0.2
25.69 0.20
103.0 0.1
47.52 0.18
81.9 0.0
Nov.
7
30.05
0.24
70.6
0.7
25.49 0.18
103.1 0.3
47.34 0.17
81.9 0.4
17
29.81
0.22
69.9
1.1
25.31 0.17
102.8 0.7
47.17 0.16
81.5 0.8
27
29.59
0.19
66.8
1.5
25.14 0.15
102.1 1.2
47.01 0.13
80.7 1.2
Dec.
7
29.40
0.15
67.3
1.9
24.99 0.12
100.9 1.6
46.88 0.11
79.5 1.5
17
29.25
an
65.4
2.2
24.87 0.10
99.3 1.9
46.77 0.08
78.0 1.7
27
29.14
0.07
63.2
2.5
24.77 0.06
97.4 2 1
46.69 0.05
76.3 2.0
37
29.07
60.7
24.71
95.3
46.64
74.3
34
266
FIXED STARS, 1855.
APPAHF.NT PLACES OF THE PRINCIPAL FIXED
STABS, FOB THE UPFBB
TRANSIT AT WASHINGTON.
Sidereal
a
Cbpbei.
/f Aquabii.
/I Cbphxi.
Da/oflhA
Month.
B.A.
DecNorih.
R.A.
Dec South.
RA.
Dec North.
h.
m.
O 1
h. m.
o
1
h. m.
O 1 '
21
15
61 57
21 23
6
12
21 26
69 55
Jan. 1
3.82
0.20
83.2 2.6
a. 8
53.61 0.01
33.6
0.6
•. 8.
42.44 0.35
S&.1 2.4 r
11
3.62
0.14
80.6 2.9
53.60 0.03
34.4
0.5
42.09 0.26
31.3 2.8 ,i
21
8.48
0.07
77.7 8.1
53.63 0.06
34.9
0.4
41.83 0.16
28.5 S.I ;
31
3.41
0.01
74.6 8.2
53.69 0.08
35.3
0.3
41.67 0.06
25.4 8.2
Feb. 10
8.42
0.09
71.4 3.1
53.77 0.11
35.6
0.2
41.61 006
22.2 S.S '
20
3.51
0.17
68.3 2.9
53.88 0.14
35.8
0.0
41.67 0.16
19.0 S.1
March 2
8.68
0.28
65.4 2.7
54.02 0.17
35.8
0.2
41.83 0.81
15.9 a.8
12
3.96
0.84
62.7 2.3
54.19 0.20
85.6
0.5
42.14 0.42
13.1 S.S
22
4.30
0.89
60.4 1.8
54.39 0.28
85.1
0.7
42.56 0.49
10.6 2.1
April 1
4.69
0.44
58.6 1.3
54.62 0.25
34.4
0.9
43.05 0.56
8.5 1.6
11
5.13
0.49
57.3 0.7
54.87 0.28
33.5
1.1
43.60 0.62
6.9 1.0
21
5.62
0.51
56 6 0.0
55.15 0.80
32.4
1.4
44.22 0.66
5.9 0.S 1
May 1
6.13
0.52
56.6 0.6
55.45 0.31
81.0
1.5
44.88 0.68
5.6 0.S
11
6.65
0.52
57.2 1.2
55.76 0.88
29.5
1.7
45.66 0.67
5.9 09
1 21
7.17
0.48
58.4 1.8
56.09 0.82
27.8
1.8
46.23 0.63
6.8 1.5
' 31
7.65
0.44
60.2 2.3
56.41 0.82
26.0
1.8
46.86 0.58
8.8 8.0
June 10
8.09
0.42
62.5 2.8
56.73 0.30
24.2
1.8
47.44 0.56
10.3 2.5
20
8.51
0.89
65.3 3.2
57.03 0.28
22.4
1.7
48.00 0.49
12.8 S.0
30
8.90
0.80
68.5 8.4
57.31 0.25
20.7
1.5
48.49 0.40
15.8 *.4
July 10
9.20
0.22
71.9 8.6
57.56 0.21
19.2
1.4
48.89 0.29
19SI ».7 j
20
9.43
0.14
75.5 8.7
57.77 0.17
17.8
1.2
49.18 0.18
22.9 3.8
30
9.56
0.06
79.2 8.8
57.94 0.12
16.6
1.0
49.36 0.07
26.7 S.7
Aug. 9
9.62
0.08
83.0 3.7
58.06 0.07
15.6
0.7
49.43 0.05
30.4 8.7 1
19
9.59
0.11
86.7 3.5
58.13 0.03
14.9
0.6
49.38 0.15
34.1 s.« 1
29
9.48
0.18
90.2 8.2
58.16 0.02
14.3
0.4
49.23 0.11
37.7 8.4 '
1
41.1 8.2
S«pt. 8
9.30
0.22
93.4 2.9
58.14 0.05
13.9
0.2
49.02 0.80
18
9.08
0.28
96.3 2.5
58.09 0.08
13.7
0.0
48.72 0.40
44.8 2.9 !
28
8.60
0.33
98.8 2.1
58.01 0.11
13.7
0.2
48.32 0.49
47.2 2.5
Oct 8
8.47
0.88
100.9 17
57.90 0.13
13.9
0.2
47.83 0.54
49.7 2.0
18
&09
0.41
102.6 1.2
57.77 0.18
14.1
0.4
47J29 0.57
51.7 1.5
28
7.68
0.13
103.8 0.7
57.64 0.13
14.5
0,4
46.72 0.59
53.2 1.0
Nov. 7
7.25
0.43
104.5 0.1
57.51 0.12
14.9
0.5
46.18 0.62
51.2 0.4 '
17
6.82
0.48
104.6 0.5
57.39 0.11
15.4
0.5
45.51 0.68
54.6 0.2 I
27
6.39
0.40
104.1 1.0
57.28 0 09
15.9
0.6
44.88 0.60
M.4 0.T 1
Dec. 7
5.99
0.84
103.1 1.5
57.19 0.07
16.5
0.6
44^^0.58
53.7 IJ
1
17
5.65
0.29
101.6 2.0
57.12 0.04
17.1
0.6
43.75 0,46
52.5 1.7
27
5.36
0.24
99.6 2.8
57.08 0.02
17.7
0.6
43.29 0.89
40.8 2.2
87
5.12
97.3
57.06
18.3
42.90
48.6
FIXED STARS, 1855. 267
APPABENT PLACES OF THE PRINCIPAL FIXED
STARS, FOB THS UFPEbI
TRANSIT AT WASHINGTON.
Sidmal
• Pflgui-
a Aquabii.
a Grois.
Day ofibe
HoQth.
S.A.
DecAbffiA.
R.A.
DtcS^uth.
R.A.
DecSbuM.
I!
h. m.
o
1
h. nL
o
1
h.
m.
O 1
21 37
9
12
21 68
1
01
21
59
47 39
1
: Jan.
1
2.11 0.02
8^.0
n
1.8
s. ■.
18.35 0.02
2§.8
0.8
2.57
a.
0.05
57.1 1.4
11
2.09 0.00
36.7
1.2
18.33 0.01
80.6
0.7
2.52
0.03
55.7 1.7
21
2.09 0.08
35.5
1.2
18.34 0.04
81.3
0.6
2.49
0.00
54.0 2.0
31
2.12 0.06
34.3
1.2
18.38 0.06
31.9
0.6
2.49
0.07
52.0 2.2
Feb.
10
2.18 0.09
33.1
1.0
18.44 0.10
32.5
0.4
2.56
0.11
49.8 2.8
20
2J21 0.12
32.1
0.9
18.54 0.12
32.9
0.8
2.67
0.15
47.5 2.4
March 2 1
2.39 0.15
31.2
0.5
18.66 0.15
33.2
0.0
2.82
0.19
45.1 2.5
12
2.54 0.18
30.7
0.2
18.81 0.19
33.2
0.8
3.01
0.23
42.6 2.6
22
2.72 0.22
30.5
0.1
19.00 0.21
32.9
0.5
3.24
0.28
40.0 2.6
April
1
2.94 0.24
30.6
0.4
19.21 0.24
32.4
0.8
3,52
0.82
37.4 2.5
11
3.18 0.27
81.0
0.8
19.45 0.26
31.6
1.0
3.84
0.35
34.9 2.4
21
3.45 0.29
31.8
1.2
19.71 0.81
ao.6
1.8
4.19
0.40
32.5 2.2
May
1
3.74 0.S0
33.0
1.4
20.02 0.81
29.8
1.6
4.59
0.42
30.3 2.0
11
4.04 0.82
34.4
1.7
20.33 0.81
27.7
1.7
5.01
0.43
28.3 1.7
21
4.36 0.84
86.1
1.9
20.64 0.82
26.0
1.9
5.44
0.45
26.6 1.4
81
4.70 0.82
88.0
2.1
20.96 0.81
24.1
2.0
5.89
0.46
25.2 1.1
June
10
5.02 0.29
40.1
2.2
21.27 0.81
22.1
2.0
6.35
0.44
24.1 0.7
20
5.31 0.27
42.8
2.8
21.58 0.29
20.1
1.9
6.79
0.41
23.4 0.2
80
5.58 0.25
44.6
2.2
21.87 0.25
18.2
1.9
7.20
0.88
23.2 0.2
July
10
5.83 0.22
46.8
2.1
22.12 0.22
16.8
1.8
7.58
0.83
23.4 0.6
20
6.05 0.17
48.9
2.0
22.34 0.18
14.5
1.6
7.91
0.28
24.0 0.9
80
6.22 0.12
60.9
1.8
22.52 0.18
12.9
1.4
8.19
0.22
24.9 1.8
Aug.
9
6.34 0.08
52.7
1.6
22.65 0.08
11.5
1.1
8.41
0.15
26.2 1.6
19
6.42 0.08
54.3
1.4
22.73 0.04
10.4
0.9
8.56
0.08
27.8 1.8
29
6.45 0.01
55.7
1.1
22.77 0.00
9.5
0.7
8.64
0.08
29.6 1.9
Sept
8
6.44 0.05
56.8
0.9
22.77 0.04
8.8
0.4
8.67
0.05
31.5 1.9
18
6.39 0.08
57.7
0.6
22.73 0.08
8.4
0.2
8.62
0.10
33.4 1.9
28
6.31 0.10
58.3
0.8
22.65 0.10
8.2
0.1
8.52
0.14
35.3 1.8
Oct
8
6.21 0.12
58.6
0.2
22.55 0.18
8.1
0.1
8.38
0.18
37.1 1.6
18
6.09 0.18
58.8
0.1
22.42 0.11
8.2
0.2
8.20
0.20
38.7 1.8
28
5.96 0.14
58.7
0.2
22.31 0.12
8.4
0.8
8.00
0.2V
40.0 0.9
Not.
7
5.82 0.12
58.5
0.4
22.19 0.18
8.7
0.4
7.79
0.21
40.9 0.6
17
5.70 0.12
58.1
0.6
22.06 0.11
9.1
0.6
7.58
0.20
41.5 0.2
27
5.58 0.10
57.5
0.8
21.95 0.09
9.7
0.7
7.38
0.18
41.7 0.2
Dec.
7
5.48 0.09
56.7
1.0
21.86 0.08
10.4
a7
7.20
0.15
41.5 0.5
17
5.39 0.06
55.7
1.0
21.78 0.05
11.1
0.7
7.05
0.12
41.0 0.9
27
5.33 0.04
64.7
1.1
21.73 0.02
11.8
0.7
6.93
0.09
40.1 1.8
87
5.29
63.6
21.71
12.5
6.84
38.8
268
FIXED STARS, 1855.
APPARENT PLACES OF THE PBINCIPAL FIXED
8TAKS, FOR THB UPPBb]
TRANSIT AT WASHINGTON.
Skfere*!
Dar or the
{Peg«ri.
a P18OI8 AUSTSALIS.
a Pboasi.
(Afarkab.)
Hoalh.
aA.
Dtc, North,
B.A.
Dec South.
R.A.
Dec North.
22
m.
34
10 04
h. m.
22 49
30 23
h. m.
22 67
14 25
Jan. 1
12.29
s.
0.07
27.8 i.o
36.33 0.08
35.0
0.4
s. t.
30.96 0.08
36.5 I'o
11
12.22
0.04
26.8 1.1
36.25 0.06
38.6
0.7
30.88 0.06
29.5 1.2
21
12.18
O.OS
25.7 1.1
36.19 0.08
37.9
1.0
30.82 0.05
28.3 1.2
81
12.15
0.01
24.6 1.1
36.16 0.02
36.9
1.2
30.77 0.02
27.1 1.2 1
Feb. 10
12.16
0.03
23.5 0.9
36.14 0.05
35.7
1.4
30.75 0.01
25.9 1.1
20
12.19
0.06
22.6 0.8
36.19 0.07
34.8
1.6
30.76 0.04
24.8 1.0
March 2
12.25
0.10
21.8 0.6
36.26 0.10
32.7
1.8
30.80 0.08
23.8 0.8
12
12.35
0.15
21.2 08
36.36 0.14
30.9
2.0
30.88 0.11
23.0 0.6
22
12.50
0.18
20.9 0.1
36.50 0.18
28.9
2.1
30.99 0.15
22.4 0.8
April 1
12.68
0.19
20.8 0.2
36.68 0.22
26.8
2.8
31.14 0.19
22.1 0.1
11
12.87
0.28
21.0 0.6
36.90 0.26
24.5
2.8
31.33 0.28
22.0 0.8
21
13.10
0.27
21.6 1.0
37.16 0.29
22.2
2.8
31.56 0.26
22.8 0.8
May 1
13.37
0.80
22.6 1.8
37.45 0.82
19.9
28
31.82 0.29
28.1 1.1
11
13.67
0.82
23.9 1.6
37.77 0.85
17.6
2.2
32.11 0.82
24.2 1.4
21
13.99
0.88
25.5 1.8
38.12 0.87
15.4
2.1
82.43 0.88
25.6 1.7
31
14.32
0.33
27.3 2.0
38.49 0.88
13.8
1.^
82.76 0.84
27.8 2.0
June 10
14.65
0.34
29.3 2.2
38.87 0.88
11.4
1.6
33.10 0.84
29.3 2.2
20
14.99
0.31
31.5 2.8
39.25 0.86
9.8
1.8
33.44 0.88
31.5 2.3
30
15.30
0.80
33.8 2.3
39.61 0.34
8.5
1.0
33.77 0.81
33.8 2.4
July 10
15.60
0.26
36.1 2.3
39.95 0.81
7.5
0.6
84.08 0.27
36.2 2.4
20
15.86
0.28
38.4 2.2
40.26 0.28
6.9
0.8
84.35 0 25
88.6 2.3
30
16.09
0.19
40.6 2.0
40.54 0.24
6.6
0.1
34.60 0.20
40.9 2.2
Aug. 9
16.28
0.18
42.6 1.8
40.78 0.18
6.7
0.4
34.80 0.15
43.1 2.1
19
16.41
0.09
44.4 1.6
40.96 0.18
7.1
0.8
34.95 0.11
45.2 2.0
29
16.50
0.04
46.0 1.4
41.09 0.08
7.9
1.0
85.06 0.07
41J2 1.7
Sept 8
16.54
0.01
47.4 1.2
41.17 0.02
8.9
1.2
85.13 0.02
48.9 1.5
18
16.55
0.04
48.6 0.9
41.19 0.02
10.1
1.3
35.15 0.01
50.4 1.2
28
16.51
0.06
49.5 0.7
41.17 0.07
11.4
1.4
35.14 0.05
51.6 0.9
Oct 8
16.45
0.09
50.2 0.4
41.10 0.09
12.8
1.4
85.09 0.07
52.5 0.7
18
16.36
0.10
50.6 0.2
41.01 0.12
14.2
1.8
85.02 0.09
53.2 0.4
28
16.26
0.12
60.8 0.0
40.89 0.12
15.5
1.2
84.93 0.11
53.6 0.2
Nov. 7
16.14
0.12
50.8 0.2
40.77 0.16
16.7
0.9
34.82 0.12
53.8 0.1
17
16.02
0.12
50.6 0.4
40.61 0.15
17.6
0.7
84.70 0.12
53.7 0.2
27
15.90
0.12
50.2 0.6
40.46 0.13
18.3
0.5
84.58 0.12
53.5 0.4
Dec. 7
15.78
0.11
49.6 0.7
40.33 0.13
18.8
0.8
34.46 0.11
53.1 0.6
17
16.67
0.09
48.9 0.8
40.20 0.11
19.1
0.0
84.85 0.10
52.5 OS
27
15.58
0.08
48.1 1.0
40.09 0.10
19.1
0.8
34.25 0.09
51.7 1.0
87
15.50
47.1
39.99
18.8
84.16
50.7
FIXED STARS, 1855. 269
APPARENT PLACES OF
THE
PRINCIPAL FIXED STARS, FOR THE
UPPER
.
TRANSIT AT WASHINGTON.
Sideml
1 FUdnm.
r CepbeL
Dajr of ibe
Month.
S.A.
Dec North.
R.A
Dec North.
h.
m.
o
1
h.
m.
o
1
23
32
4
50
23
33
76
49
Jan.
1
28.72
0.09
21.2
l»
0.7
^.12
8.
0.82
86.9
0.8
11
28.63
0.07
20.5
0.8
21.30
0.80
36.1
1.4
21
28.56
0.06
19.7
0.7
20.50
0 70
34.7
1.9
81
28.50
0.04
19.0
0.7
19.80
0.57
32.8
2.4
Feb.
10
28.46
0.02
18.3
0.5
19.23
0.41
30.4
2.7
ao
28.44
0.02
17.8
0.4
18.82
0.27
27.7
2.9
March 2 |
28.46
0.06
17.4
0.8
18 55
0.09
24.8
8.0
12
28.51
0.08
17.1
0.0
18.46
0.02
21.8
8.0
22
28.59
0.12
17.1
0.2
18.48
0.22
18.8
2.9
April
1
28.71
0.15
17.3
0.5
18.70
0.48
15.9
2.6
11
28.86
0.20
17.8
0.8
19.18
a62
13.3
2.8
21
29.06
0.28
18.6
1.1
19.80
0.71
11.0
1.9
May
1
29.29
0.27
19.7
1.8
20.51
0.84
9.1
1.4
11
29.56
0.80
21.0
1.6
21.35
0.98
7.7
0.8
21
29.86
0.81
22.6
1.8
22.28
1.00
6.9
0.2
31
30.17
0.88
24.4
2.0
23.28
0.98
6.7
0.4
June
10
30.50
0.84
. 26.4
2.1
24.26
1.00
7.1
1.0
20
30.84
0.34
28.5
2.2
25.26
0.98
8.1
1.6
30
31.18
0.82
30.7
2.2
26.24
0.93
9.7
2.2
July
10
31.50
0.29
32.9
2.1
27.17
0.84
11.9
2.6
20
81.79
0.27
35.0
2.0
28.01
0.74
14.5
8.0
30
32.06
0.24
37.0
1.8
28.75
0.62
17.5
8.4
Aug.
9
32.30
0.18
38.8
1.6
29.37
0.48
20.9
8.6
19
32.48
0.14
40.4
1.4
29.85
0.34
24.5
8.8
29
32.62
0.11
41.8
1.1
30.19
0.19
28.3
8.8
Sept
8
32.73
0.06
42.9
0.9
30.38
0.06
32.1
8.9
18
32.79
0.08
43.8
0.7
30.44
0.07
36.0
3.8
28
32.82
0.01
44.5
0.4
30.37
0.22
39.8
8.6
Oct
8
32.81
0.04
44.9
0.2
30.15
0.87
43.4
3.4
18
32.77
0.06
45.1
0.1
29.78
0.48
46.8
8.1
28
32.71
0.08
45SI
0.1
29.30
0.69
49.9
2.7
Nov.
7
32.63
0.08
45.1
0.8
28.71
0.72
52.6
2.8
17
32.55
0.11
44.8
0.4
27.99
0.78
54.9
1.8
27
32.44
0.10
44.4
0.5
27.21
0.85
56.7
1.8
Dec.
7
82.34
0.11
43.9
0.6
26.36
0.90
58.0
0.7
17
82.23
0.09
43.3
0.7
26.46
0.94
58.7
0.1
27
32.14
0.09
42.6
0.7
24.52
0.85.
58.8
0.5
37
32.05
41.9
23.67
58.3
270 FIXED STARS, 1855.
TABLE GIVING THE CORRECTION OF THREE OF THE POLAR STARS
FOE TERMS OF NUTATION INVOLVING 2 C ■
I
A
o
SI CepheL
aA,
+.018
.014
.009
J005
+.001
— XKW
.008
J0\2
.017
.021
—.025
.029
xas
.037
Ml
—.045
.049
X)53
^56
.060
—.065
.069
.078
.076
X)79
— i)82
.085
.088
J091
.094
-.097
.100
.103
.105
.107
-.109
.111
.113
.115
.116
V^
I-.09
.09
.09
.09
.09
+X)9
.09
.09
J09
JOd
+.09
.09
.09
.08
.08
+.08
.08
.08
X)8
.08
+.08
.07
J07
Xi7
.07
+X)7
.06
.06
M
X)5
+.05
.05
X>5
.04
+X>4
.04
JOS
xa
JOS
a Octaau.
RA. tlBC
—.025 —.09
.040
.055
J070
.085
-.100
.115
.130
.144
.158
-.172
.186
.200
.213
.226
-.239
.251
.263
J27b
.287
-.299
.310
.320
.330
.340
-.350
.359
.368
.376
.383
-.390
.396
^02
.408
^13
-^18
^23
^27
.430
^32
-434
ASb
.436
436
436
-436
J09
J09
J09
.09
-X)9
.08
.08
.08
.08
—JOS
.08
.08
JOS
JOS
— X)8
.07
.07
J07
J07
—.07
J07
.06
.06
.06
—.06
.05
.05
.05
.04
—.04
.04
.03
JOS
JOS
— XW
^2
.02
—.01
+X)1
+i)l
.00
JOO
.00
JOO
+.01
I nf«.MiiL
SLA^ o«.
—.159 —.08
.151
.143
.135
.127
—.118
.109
.100
.091
J0S2
— i)73
.064
.055
JOiS
JOSS
—.026
jon
—JOOS
+.002
.012
+.022
.032
J041
.050
.060
+.070
.079
.088
X>97
.106
+.115
.124
.133
.142
.150
+.158
.165
.172
.179
.186
+.193
.199
.206
.212
.218
+.224
.08
.08
.08
.08
—.08
.08
.08
.08
JOS
—J09
.09
J09
J09
J09
— X>9
.09
.09
.09
.09
— X>9
.09
.09
JOS
.08
—.08
.08
.08
.08
.08
—.08
.08
.08
.07
.07
—.07
.07
.06
.06
.06
—.06
JOi
.05
.05
.05
—.04
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129 84
—.117 +.03 — 434 +i)l +.193 —.06 130 85
118: .02 435 .00 .199 J05 131 i86
119 J02 .436 iK) .206 .05 132 87
120 .01 436 .00 .212 .05 133 ,88
.121! .01 436 JOO .218 .05 134 89
— >12a|+/)l —436 +.01 +.224 —.04 135 i90
Note. — WhM the Arcunwni b on the rif hi-hand tbto of the Tibt«, Uw tifn of iht cnrrecUoo la to tM nvsrwd.
51 Cephei.
5- A.
-.122
.123
.124
.124
.124
-.124
.123
.123
.122
.122
-.121
.121
.120
.119
.117
-.115
.114
.112
.110
.108
-.106
.102
.100
.098
.095
-.093
.090
.087
.084
.080
-.077
.074
.070
.066
.062
-.059
.055
.050
.047
.043
IkK
+.01
.00
.00
+.00
—.01
—.01
.01
j02
J02
.02
—.02
JOS
JOS
.03
.04
— X>4
.04
.04
.05
X>5
—.05
.06
.06
.06
.06
—.06
.07
.07
J07
.07
— X>7
.08
.08
JOS
.08
—.08
.08
.08
.09
.09
-.039 —.09
.035 .09
.030 .09
.0261 .09
.022; .09
—.018 —.09
a Oc^Msm*
£.4.
—.436
435
.433
431
428
—425
.421
417
412
.407
—.401
.395
.389
.382
.374
—365
.356
.347
.338
.328
— -318
.307
.296
.284
.272
—.261
.249
.237
.224
.211
—.197
.183
.169
.155
.141
-.126
.111
.096
.081
.066
— i)5l
.036
.021
—.006
+.009
+J025
Iht.
+.01
.01
.02
.02
.02
+.02
JOS
.03
.03
.04
+.04
.04
.04
.05
.05
+.05
JOb
.06
.06
.06
+.06
.07
.07
.07
J07
+i)7
.08
.08
.08
.08
+.08
.09
.09
.09
.09
+.09
.09
.09
.09
.09
+.09
.09
.09
.09
.09
+X)9
lVn,ma.
K.A.
+.224
.229
.234
.239
.244
+.249
.253
.256
.259
.252
+.255
.267
.269
.271
.273
+.274
.275
.275
.275
.275
Dee.
—.04
.04
.04
.04
J04
—JOS
.03
.03
.02
J02
—.02
.02
.01
.01
—.01
+.00
JOO
.00
.01
.01
+.275 +.01
.2741 .02
.272 .02
.270
.268
.02
.02
h.266,+.03
.263 .03
.260' .03
.657 .04
.254
+.250
.246
.242
.237
.04
+.04
.04
.05
X>5
.232 .05
+.227 +.06
.221 .06
.215, .06
.209, .06
.203 .06
+.196 +.07
.189; .07
.182 .07
.175 .07
.167 J07
+.159 +.08
I
I
135
136 1
137
138
139
140
141
142
143
144
145
146
147,
148;
149
150'
151
152
153
154
155'
156
157
158|
159
160
161
162 1
163
164
165;
166
167
168
.69,1
170 ;
171'
172 I
173
174 I
.»!
176 >
177
178
179.
180
SOLAR EPHEMERIS, 1855. 2T1
AT WASHINGTON MEAN AND APPARENT NOON. |
IMte.
APPAftE.Vr
HIGH r ASCENSION
APPAKENT
DECLINATION.
HOURLY
MOTION.
Equation
of Time
Semidi-
ameter
Illll
SIdeiMlTime
of Mean
Noon.
MeenNooQ.
Ap.
parent
9fe«aN«0fi.
Ap^
parent
l^oon.
Right
Aflcen-
■loo.
Decli-
natloo.
aiAp.
h. m. 8.
B.
o / n
II
s.
J
m. a.
m. a.
m. a.
h. m. a.
Jan. 1
18 46 57.52
58.21
-23 1 11.1
10.3
ujose
12.39
+ 3 49.72
16 1843
1 11.03
18 43 7.86
2
18 51 22.20
22.97
22 56 ai
:69.1
11.022
13.53
4 17.86
18.43
10.99
18 47 4.42
3
18 55 46.52; 47.38
22 50 21.8
20.6
11.006
14.66
4 45.64
1842
10.94 118 51 0.98
4
19 0 10.471 IMl
22 44 16^
14.9
10.989
15.80
6 13.03
1841
10.89{l8 54 57.53
5
19 4 34.01
S5J03
22 37 43.7
42.2
10.972
16.92
5 40.02
18.39
10.83 18 58 54.09
6
19 8 57.11
5821
22 30 44.3
42.6
10.953
18.03
6 6.57
18.36
10.77 19 2 50.65
7
19 13 19.75
20.93
23 23 18.3
16.3
10.933
19.14
6 32.66
18.33
10.71
19 6 47.21
8
19 17 41.91
43.16
22 15 25.9
23.5
10.912
20.23
6 58.26
18.29
10.64
19 10 43.77
9
19 22 3.56
4.69
22 7 7.3
4.6
10.892
21.32
7 23.36
18.25
10.56
19 14 40.33
10
19 26 24.69
26.09
21 58 22.7
19.8
10.869
22.40
7 47.93
18.20
1048
19 18 36.89
U
19 30 45.27
46.74
21 49 12.4
9.2
10.845
23.46
8 11.95
18.14
10.40
19 22 33.45
12
19 35 5.27
6.81
21 39 36.7
33.2
10.820
24.52
8 35.40
18.08
10.32
19 26 30.01
13
19 39 24.68
26.28
21 29 35.7
31.9
10.796
25.57
8 5a25
18.01
10.23
19 30 26.57
14
19 43 43.47
45.13
21 19 9.7
5.6
10.770
26.60
9 20.47
17.94
10.14
19 34 23.12
15
19 48 1.61
3.33
21 8 19.1
14.7
10.743
27.62
9 42.03
17.86
10.05
19 38 19.68
16
19 52 19.08
20.86
20 57 4.2
:59.4
10.716
28.63
10 2.93
17.78
9.96
19 42 16.24
17
19 56 35.85
37.69
20 45 25.2
20.1
10.687
29.62
10 23.14
17.70
9.86
19 46 12.80
18
20 0 51.91
53.80
20 33 22.6
17.1
10.657
30.60
10 42.65
17.62
9.76
19 50 9.36
19
20 6 7.24
9.18
20 20 56.7
50.9
10.625
31.57
11 1.43
17.53
9.66
19 54 5.91
20
20 9 21.82
23.80
20 8 7.8
1.7
10.593
32.52
11 19.45
17.44
9.56
19 58 2.47
21
20 13 35.64
37.66
19 54 56.3
49.9
10.560
33.45
11 36.71
17.35
946 20 1 59.03
22
20 17 48.68
50.75
19 41 22.6
15.7
10.527
34.37
11 53.19
17.25
9.35 20 5 55.59
23
20 22 0.92
303
19 27 26.9
19.7
10.494
35.28
12 8.86
17.15
9.24
20 9 52.15
24
20 26 12.36
14.51
19 13 9.6
2.1
10.460
36.17
12 23.74
17.04
9.13
20 13 48.70
25
20 30 22.99
25.17
18 58 31.2
23.4
10.426
37.04
12 37.81
16.93
9.02
20 17 45.25
26
20 34 32.79
35.00
18 43 32.2
24.1
10.391
37.89
12 51.03
16.81
8.91
20 21 41.81
27
20 38 41.75
44.00
18 28 12.9
4.5
10.356
38.73
13 3.43
16.69
8.80
20 25 38.37
28
20 42 49.88
52.15
18 12 33.7
24.9
10.321
39.56
13 15.00
16.57
8.68
20 29 34.93
29
20 46 57.19
59.48
17 56 34.9
25.8
10.286
40.35
13 25.76
16.44
8.57
20 33 31.48
30
20 51 3.67
5.98
17 40 17.0
7.5
10.251
41.14
13 35.68
16.30
846
20 37 28.04
31
20 55 9.30
11.63
17 23 40.3
30.5
10.217
41.92
13 44.74
16.16
8.34
20 41 24.60
Feb. 1
20 59 14.10
16.45
17 6 45.2
35.2
10.183
42.67
13 52.97
16.02
8.22
20 45 21.16
2
21 3 18.09
20.45
16 49 32.2
22.0
10.149
43.42
14 0.39
15.87
8.10
20 49 17.71
3
21 7 21.25
23.62
16 32 1.6
:51.2
10.116
44.14
14 7.00
15.72
7.99
20 53 14.26
4
21 11 23.61
25.99
16 14 13.9
3^
10.083
44.85
14 12.79
15.56
7.88 20 57 10.82 ||
5
21 15 25.16
27.55
15 56 9.4
:58.4
10.050
45.54
14 17.78
15.39
7.76
21 1 7.38
6
21 19 25.91
28.31
15 37 48.3
37.2
10.017
46.22
14 21.97
15.21
7.65
21 5 3.94
7
21 23 25.88
28.28
15 19 11.2
:59.9
9.984
46.88
14 25.38
15.03
7.54
21 9 0.50
8
21 27 25.06
27 46
15 0 18.5
7.0
9.952
47.52
14 28.00
14.84
7.43
21 12 57.05
9
21 31 23.47
25.86
14 41 10.6
•58.9
9.920
48.15
14 29.84
14.65
7.32
21 16 53.60
10
21 35 21.12
23.50
14 21 47.8
36.0
9.888
48.75
14 30.91
14.45
7.21
21 20 50.16
11
21 39 17.99
20.37
14 2 10.7
:58.7
9.855
49.34
14 31.23
14.26
7.10
21 24 46.72
12
21 43 14.10
16^8
13 42 19.6
7.5
9.824
49.92
14 30.79
14.06
6.99
21 28 43.27
13
21 47 9.47
11.83
13 22 14.9
2.7
9.793
50.48
14 29.60
13.86
6.88
21 32 39.82
14
21 51 4.10
646
13 1 57.0
44.8
9.762
51.02
14 27.66
13.66
6.77
21 36 36.37
15
21 54 68.00
: 0^5
12 41 26.5
14.1
9.731
51.54
14 25.01
13.46
6.66
21 40 32.93
16
21 58 51.17
53.50
12 20 43.7
31 1
9.701
52.04
14 21.62
13.25
6.56
21 44 29.49
17
22 2 43.62
45.93
11 59 49.0
36.4
9.671
52.53
14 17.52
13.04
646
21 48 26.04
18
22 6 35.36
37.65
1138 42.9
30.4
9.642
52.99
14 12.71
12.83
6.36
21 52 22.59
19
22 10 26.41
28.67
11 17 25.9
13.4
9.612
53.43
14 7.19
12.62
6.26
21 56 19.14
20
22 14 16.77
19.00
10 55 58.4
45.8
9.584
53.87
14 0.97
12.40
6.16
22 0 15.70
21
22 18 6.45
8.66
10 34 20.7
8.1
9.556
54.28
13 54.10
12.18
6.07
22 4 12.26
22
22 21 55.48
57.66
10 12 33.3
20.7
9.528
54.67
13 46.56
11.96
5.98
22 8 8.81
23
22 25 43.87
46.02
9 50 36.7
24.1
9.501
55.05
13 38.39
11.74
539
22 12 5.37
24
22 29 31.61
33.73
9 28 31.3
18.7
9.474
55.41
13 29 57
11.52
5.80
22 16 192
25
22 33 18.74
20.83
9 6 17.4
4.9
9.449
55 75
13 20.14
11.29
5.71
22 19 5848
26
22 37 5.26
7.33
8 43 55.5
43.2
9.425
56.07
13 10.10
11.06
5.63
22 23 55 04
27
22 40 51.19
53.23
8 21 26.1
13.9
9.402
56.38
12 59.48
10.82
5.55
22 27 51.59
28
22 44 36.58
38.59
7 58 49.5
37.3
9.379
56.68
12 48.32
10.58
547
22 3148.15
29
22 48 21.44
23.42
7 36 6.0
:53.9
9.358
56.96
12 36.64
10.34
540
22 35 44.70
30
22 52 5.79
7.73
7 13 16.0
4.1
9.338
57.22
12 24.41
10.10
5.33
22 39 41.26
31
22 55 49.63
51.53
~ 6 50 20X)
8.3
9.318
57.44
442 11.70
16 9.84
1 5.26 22 43 37.81 {
For M^QH Interral of aamldiainHer paaain; the meridian, aubtract 0*.18 from the aiUerwl interraL
272 SOLAR EPHEMERIS, 1855.
f =
AT WASHINGTON MEAN AND
APPARENT NOON.
L APPAREN r
hUOHT ASCBNSION
APPAKBNT
HOURLY
EqiMtioQ
of Time
for
Semldi*
Skloreal
Date.
DECUNATION.
MOTION.
ameier
ai Ap-
Time of
tiemid.
SklermlTliiM
ofMma
Ap-
Ap-
Ri^bi
Decli-
naikm.
MeaaNooa
ptrent
Vooo.
s.
MmuiNooo.
parent
Aj««a-
•ioa.
*!cr'
sr
'is:;^'
Nooa.
h. m. t.
O 1 II
H
•.
•
m. ■.
m. •.
m. ■.
h. m. •.
Mmr.l
22 48 2U4
2342
- 7 36 6.0
:53.9
9.358
56.96
+12 36.63
16 1034
1 540
22 35 44.70
2
22 52 5.79' 7.73
7 13 16.0
4.1
9.338
57.20
12 2441
lOlO
5.33
22 39 41.26
22 55 49.63 51.53
6 50 20.0
8.3
9.318
5744
12 11.70
9.84
5.26
22 43 37.81
22 59 32.99 34.85
6 27 18.3
6.7
9.299
57.68
1158.51
9.60
5.19
22 47 34^6
23 3 15.90 17.72
6 4 11.2
59Ut
9.280
67.91
11 44.87
9.35
5.12
22 51 30.92
23 6 58.39.: 0.17
5 40 59.1
47.9
9.263
58.11
1130.80
9X>9
5.06
22 56 2747
23 10 40.48! 42.22
6 17 424
31.3
9.246
58.29
11 16.33
8.83
5.00
22 59 24X)2
23 14 22.18
23.89
4 54 21.5
10.5
9St3\
5846
11 149
8.57
4.94
23 3 20.57
23 18 3.52
6.19
4 30 56.6
45.9
9.217
58.62
10 46.29
8.31
4.8»
23 7 17.12
23 21 44.53
46.16
4 7 28.1
17.7
9.204
58.76
10 30.74
8.04
4.84
23 11 13.68
23 25 25.23
26.81
8 43 564
46.3
9.191
58.88
10 14.89
7.77
4.79
23 15 10.23
23 29 5.62
7.15
3 20 21.9
12.1
9.178
58.99
9 58.74
7.50
4.74
23 19 6.78
23 32 45.72
47.20
2 56 45.0
354
9.167
59.09
• 9 42.29
7.23
4.70
23 23 3JM
23 36 25.56
26.99
2 33 6.0
:56.7
9.156
59.17
9 25.56
6.96
4.66 23 26 59.89
23 40 5.14
6.53
2 9 264
164
9.146
59.23
9 8.59
6.69
4.62123 30 5644
23 43 4449*45.84
1 45 43.6
34.9
9.137
59.26
8 51.39
641
4.59123 34 52.99 1
17
23 47 23.64
24.95
1 22 \J0
:52.5
9.127
59.29
8 34.00
6.13
4.56
23 38 49.55
23 51 2.60
387
0 58 17.8
9.6
9.119
59.31
8 1642
5.86
4.53
23 42 46.11
23 54 41.37
42.60
0 34 34.5
26.5
9.112
59.31
7 58.63
5.59
4.51
23 46 42.66
20
23 58 20.00
21.18
- 0 10 514
43.7
9.105
59.29
7 40.71
5.31
449
23 50 39.21
21
0 15848
59.61
+.0 12 51X)
58.5
9.098
59.25
7 22.64
5.04
447
23 54 35.76
22
0 5 36.83
37.92
0 36 324
394
9.093
59.19
7 445
4 77
446
23 58 32.32
23
0 9 15X>7
16.11
1 00 12.2
18.9
9.089
59.12
6 46.13
4.50
445
0 2 28.87
24
0 12 53.23
54.22
1 23 50.1
56.5
9.086
59.04
6 27.75
4.23
4.44
0 6 25.42
25
0 16 31.33
32.27
1 47 25.8
31.9
9.083
58.94
6 9.31
395
443
0 10 21.98 ,
26
0 20 9.37
10.27
2 10 59.0
: 4.8
9.082
68.82
5 50.80
3.68
442
0 14 18.531
27
0 23 47.39
48.25
2 34 29.2
34.7
9.082
58.70
5 32.27
841
442
0 18 15.08'
28
0 27 25.41
26.22
2 57 56.2
: 14
9.082
58.56
5 13.72
3.14
442
0 22 11.64
29
0 31 343
4.20
8 21 19.6
24.5
9.084
58.40
4 55.19
2.87
443
0 26 8.191
SO
0 34 4U9
42J0
8 44 39.1
43.6
9/)87
58.23
4 36.71
2.59
4.44
0 30 4.74,
31
0 38 19.62
20.27
4 7 544
58.6
9.P91
58.04
4 18.30
2.32
445
034 1.29'
Apr. 1
0 41 57.82
58.43
4 31 bJO
8.9
9.096
57.84
3 59.96
2.04
4.46
0 37 57.85
2
0 45 36.12
36.69
4 54 10.6
14.2
9.100 57.63
3 41.71
1.76
447
0 41 5441
3
0 49 14.56
15.08
5 17 IIX)
14.9
9.106 5741
3 23.59
148
449
0 45 50.96
4
0 52 53.14
53.61
5 40 5.9
8.8
9.113 57.17
3 5.63
1.20
4.52
0 49 47.51
5
0 56 3L88
32.31
6 2 54.9
67.6
a.120 56.92
2 47.84
0.92
4.55
0 53 44.06
6
1 0 1083
11.22
6 25 37.7
40.2
9.129 56J6
2 30.23
0.64
4.58
0 57 40.62
7
1 35000
50.35
6 48 14.1
16J
9.189 56.38
2 12.88
0.36
4.61
1 1 37.17
1 8
1 7 2940
29.71
7 10 43.7
45.6
9.149 56.09
1 56.67
16 0.08
4.64
1 5 33.72
9
1 11 906
9.32
7 33 6.1
7.7
9.159 55.79
138.79
15 59.80
4.68
1 9 30.28
10
1 14 49.00
49.21
7 65 21.1
224
9.170 5547
122.19
59.52
4.72
1 13 26.83
11
1 18 29.22
29^8
8 17 28.2
29JJ
9.182 55.13
1 5.86
59.25
4.76
1 17 23JI8
12
122 9.72
9.84
8 39 27.1
27.9
9.195 54.78
0 49.80
58.97
4.80
1 21 19.94
13
125 5053
50.63
9 1 17.5
17.9
9J08 54.42
0 34.09
58.70
4.85
1 25 1649
14
1 29 31.61
31.76
9 22 58.9
59.1
9.222 54.04
0 18.72
5842
4.90
1 29 13.04
15
1 33 13.17
1322
9 44 31.1
31.2
9.236 1 53.65
+ 0 3.64
58.15
4J5
1 33 9.59
16
1 36 55.04
55.02
10 5 53.7
53.6
9.251 ; 53.23
- 0 11X)5
57.88
5.00
1 37 6.15
17
1 40 37.27
37.21
10 27 6.3
6.0
9.265 52.82
0 25.39
57.62
5.05
141 2.71
18
1 44 19.88 19.79
10 48 8.6
8.1
9.281 52.38
0 39.31
5736
5.11
1 44 59J6
19
148 2.87
2.76
11 9 0.3
:59.6 9.298 51.93
0 52.88
57.10
5.17
1 48 55.82 ,
20
I 51 46.27
46.12
11 29 40.9
40iO 9.315! 51.46
1 6.02
56.85
5.23
1 52 52.37 1
21
I 55 3007
29.88
11 50 lOl
9.0 9.333' 50.97
1 18.78
5660
5.29
1 56 48.93
22
1 59 14U)0
\4J07
12 10 274
26.2 9.350, 50 47
131.11
56.35
5.35
2 0 45.49'
23
2 2 58.96,58.70
12 30 326
31.3 9;S69 49.96
1 42.99
56.10
541
2 4 4tXH
24
2 6 44.06 43.77
12 50 254
23.9) 9.388, 49.44
15446
55.85
5.48
2 8 38.59
25
2 10 29.62j 29.30
13 10 5.5
3.8 9.408' 48.90
2 545
55.61
5.55
2 12 35.14
26
2 14 15.64, 15.29
13 29 32.5
30.7
9428 48.35
2 15.98
55.37
5.62
2 16 31.70
27
2 18 0214! 1.76
13 48 46.2
44JI
9.449 47.79
2 26.04
55.13
5.69
2 20 28.26
28
2 21 49.13 48.72
14 7 46.1
44.3
9470: 47.21
2 35.60
54.89
5.77
2 24 24.81
29
2 25 36.62 36.19
14 26 33.2
30.2 9490
46.62
2 44.66
54.65
5.85
2 28 21.37
30
2 29 24.6.1 24 1 8
14 45 4.0
1.8 9.512
46.02
2 53.20
5441
5.93,
2 32 17.92
31
2Tt I.TI7 12 70
15 3 21 1 I8.R 9.5.14' 4541
- 3 1.21
15 54.17
1 6.01-
2 36 14.48
For Mmm lat«nr«| of aMBldlAinrur pMslikf ttm owridiwi, mturact U*.lti from tba •kfarvtl Inifrral.
SOLAR EPHEMERIS, 1855. 273
AT WASHINGTON MEAN AND APPARENT NOON. |
APPARENT
APPARENT
HOURLY
EquatioQ
of Time
for
Semidi-
Sdereal
Dtfa.
SIQHr ASCENSION.
DECLINATION.
MOTION.
aroeter
at Ap-
Time of
Semid.
Sidereal TUno
of Mean
Ap.
Ap-
Right
DbcII-
natioa
MMnNooo.
pwot
Noon.
MmuiNooo.
parent
Noon.
Aflcan-
aion.
a.
*Hsr'
parent
Noon.
m. a.
Noon.
h. m. fl.
a.
o t u
II
f
m. a.
m. a.
h. m. a.
Mmjl
2 33 13.17
12.70
+15 3 21.1
18.8
9JS34
45.41
- 3 1.21
15 54.17
I 6.01
2 36 14.48
a
2 37 2.24
1.74
15 21 23.3
21.0
9.557
44.78
3 8.71
53.93
6.09
2 40 11.04
s
2 40 51.85
51.33
15 39 10.4
8.0
9.580
44.14
3 15.66
53.70
6.17
2 44 7.59
4
2 44 42.02
41.48
15 56 42.0
39.6
9.603
43.50
3 22.04
53.47
6.25
2 48 4.15
5
2 48 32.76
32.21
16 13 57.9
55.5
9.627
42.84
3 27.84
53.24
6.33
2 52 0.70
6
2 52 24.07
23.51
16 30 57.8
55.3
9.651
42.16
3 33.05
53.01
6.41
2 55 57.26
7
2 56 15.97
15.40
16 47 41.3
38.8
9.675
41.48
3 37.69
52.78
6.49
2 59 53.82
8
3 0 8.47
7.88
17 4 8.3
5.8
9.699
41.77
3 41.76
52.55
6.57
3 3 50.38
9
3 4 1.56
a95
17 20 18.4
15.9
9.724
4ao6
3 45.26
52.33
6.65
3 7 46.93
10
3 7 55.24
54.62
17 36 11.3
.8.8
9.749
39.34
3 4ai6
52.11
6.73
3 1 1 43.49
11
3 11 49.51
48.88
17 51 46.6
44.1
9.774
38.60
3 50.46
51.90
6.82
3 15 40.05
12
3 15 44.37
43.73
18 7 4.0
1.6
9.798
37.85
3 52.16
51.69
6.90
3 19 36.61
IS
3 19 39.82
39.18
18 22 3.2
0.9
9.822
37.09
3 53.26
51.48
6.98
3 23 33.16
14
3 23 35.84
35.20
18 36 44.0
41.8
9.846
36.31
3 53.80
51.28
7.06
3 27 29.72
15
3 27 32.45
31.81
18 51 6.2
3.9
9.870
35.53
3 53.73
51.08
7.14
3 31 26.27
16
3 31 29.64
29.00
19 5 9.3
7.0
9.893
34.73
3 53.10
50.88
7.22
3 35 22.83
17
3 35 27.40
26.76
19 18 53.0
50.7
9.916
33.92
3 51.90
50.69
7.30
3 39 19.39
18
3 39 25.72
2508
19 32 17.0
14.8
9.939
33.09
8 50.14
50.50
7.38
3 43 15.94
19
3 43 24.58
23.95
19 45 21.1
19.0
9.962
32.26
3 47.a3
50.32
7.46
3 47 12.50
SO
8 47 23.99
23 36
19 58 5.0
3.0
9.984
31.41
3 44.99
50.14
7.53
3 51 9.05
21
3 51 23.93
23.31
20 10 28.4
26.5
10.006
30.55
3 41.61
49.97
7.61
3 55 5.61
22
3 55 24.39
23 78
20 22 31.1
29.3
10.028
29.68
3 37.71
49 81
7.68
3 59 2.17
23
3 59 25.35
24.75
20 34 12.8
11.1
10.050
28.80
3 33.31
49.65
7.76
4 2 58.73
24
4 3 26.82|26.23
20 45 33.2
31.6
10.071
27.91
3 28.41
49.49
7.83
4 6 55.28
25
4 7 28.78 28.21
20 56 32.2
30.7
10.091
27.01
3 23.00
49.33
7.90
4 10 51.84
26
4 1131.21
31.66
21 7 9.6
8.2
10.111
26.11
3 17.12
49.18
7.97
4 14 48.40
27
4 15 34.12
33.59
21 17 25.2
23.9
10.131
25.19
8 10.78
49.03
8.04
4 18 44.96
28
4 19 37JSO
36.99
21 27 18.7
17.5
10.151
24.27
3 3.95
48.88
8.11
4 22 41.52
29
4 23 41.33
40.84
21 36 50.0
48.7
10.170
23.33
2 56.69
48.73
8.17
4 26 38.07
30
4 27 45.60
45.12
21 45 58.8
57.6
10.188
22.40
2 48.98
48.59
8^
. 4 30 34.63
31
4 31 5031
49.85
21 54 45.0
44.0
10.206
21.46
2 40.83
48.45
8.29
4 34 31.19
Juael
4 35 55.44
55.00
22 3 8.4
7.6
10.223
20.50
2 32.26
48.31
8.35
4 38 27.75
2
4 40 0.99
0.58
22 11 8.9
8.1
10.240 19.54
2 23.27
48.17
8.41
4 42 24.31
3
4 44 6.94
6.56
22 18 46.2
45.5
10.256
18.58
2 13.88
48.04
8.46
4 46 20.86
4
4 48 18.27
12.92
22 26 0.3
:59.7
10.272
17.61
2 4.11
47.91
8.51
4 50 17.42;
5
4 52 19.97
19.64
22 32 51.0
50.4
10.287
16.62
1 53.97
47.79
8.56
4 54 13.98 1
6
4 56 27.01
26.72
22 39 18.0
17.5
10.301
15.63
1 43.49
47.67
8.61
4 58 10.54
7
5 0 34.39
34.12
22 45 21.3
20.9
10.314
14.64
1 32.67
47.56
8.65
5 2 7.101
8
5 4 42.10
41.86
22 51 0.8
0.5
10.327
13.65
1 21.51
47.45
8.69
5 6 3.66
9
5 8 50.11
49.90
22 56 16.3
16.1
10.338
12.65
1 10.06
47.34
8.73
5 10 0.22
10
5 12 58.39
58.21
23 1 7.7
7.5
10.349
11.64
0 58.35
47.23
8.77
5 13 56.78
11
5 17 6.91
6.76
2a 5 34.8
34.6
10.359
10.62
0 46.39
47.13
8.80
5 17 53.34
12
5 21 15.66
15.55
23 9 37.5
37.3
10.369
9.60
0 34.19
♦7.04
8.83
5 21 49.89
13
5 25 24.61
24.54
23 13 15.7
15.5
10.377
8.58
0 21.79
46.95
8.85
5 25 46.45
14
5 29 33.74
33.71
23 16 29.4
29.3
10.385
7.56
— 0 9.22
46.86
8.87
5 29 43.00
15
5 33 43.02
43.02
23 19 18.4
18.4
10.390
6.53
+ 0 a48
46.78
8.89
5 33 39.56
16
5 37 52.42
52.45
23 21 42.7
42.7
10.394
5^
0 16.30
46.71
8.90
5 37 36.12
17
5 42 1.90
1.96
23 23 42.3
42.2
10.398
4.47
0 29.22
46.64
8.91
5 41 32.68
18
5 46 11.44
11.55
23 25 17.1
17.0
10.399
3.43
0 42.22
46.57
8.92
5 45 29.23
19
5 50 21,02
21.17
23 26 27.0
27.0
10.399
2.40
0 55.25
46.51
8.93
5 49 25.79
20
5 54 30.62
30.81
23 27 12.1
12.2
10.399
\M
1 8.28
46.46
8.93
5 53 22.35
21
5 58 40^20
4042
23 27 32.4
32.4
10.399
0.32
121.31
46.41
8.93
5 57 18.91
22
6 2 49.75
50.01
23 27 27.8
27.8
10.397
0.70
134.31
46.37
8.92
6 1 15.47
23
Q ^59.24
59.55
23 26 5^5
58.4
10.393
1.74
147.24
46.33
8.92
6 5 12.03
24
6 11 8.63
8.96
23 26 4.4
4.2
10.389
2.77
2 0.09
46.30
8.91
6 9 8.59
25
6 15 17.92
18.28
23 24 45.5
45.2
10.385
3.80
2 12.82
46.27
8.90
6 13 5.15
26
6 19 27.08
27.48
23 23 1.9
1.6
10.379
4.84
2 25.42
46.25
8.88
6 17 1.71
27
6 23 36.09
36.54
23 20 53.6
53.3
10.372
5.86
2 37.86
46.23
8.86
6 20 58.27
28
6 27 44.92
45.41
23 18 20.8
20.5
10.365
6.88
2 50.14
46.21
8.84
6 24 54.83
29
6 31 53.56
54.09
23 15 23 Ji
23.1
10.357
7.90
8 2.23
46.19
8.81
6 28 51.39
30
6 36 2.01
2.57
23 12 1.8
1.3
10.348
8.91
3 14.12
46.18
8.78
6 32 47.95
31
6 40 10.24
10.82
+23 8 15.8
15.2
10.338
9.93
+ 3 25.80
15 46.17
1 8.75
6 36 44.51
Por Mfon interral of aaroldUiiietar paaalnf tha marMlan, aabcraet 0*.18 ftom the
35
aldaraal InterraL
274 SOLAR EPHEMERIS, 1855.
AT WASHINGTON MEAN AND APPARENT NOON. |
APPARENT
APPARE.NT
HOURLY
Equation
ofTima
lor
Semidi-
SIderaal
Dite.
RIGHT ASCENSION.
DECLINATION.
MOTION.
amelar
at Ap-
Time of
Semid.
SIdenal Time
of Mean
Ap.
Ap-
Right
Decll-
nation
Mean Noon.
parent
Noon
M«wiNoon.
parent
Noon
Aj«cen-
•ion.
*Br*
parent
Noon.
■iSS?
Noon.
h. in. •.
a.
O / N
H
0.
f
m. a.
1 H
m. a.
h. m. a.
Julj I
6 40 10^
10.82
+23 8 15.8
15.2
10.338
9.93
+ 3 25.80
15 46.17
1 8.75
6 36 44.51 '
S
6 44 18.24
18.84
23 4 5J>
4.8
10.328
10.93
3 37.27
46.17
8.71
6 40 41.07
3
6 48 25.96 26.60
22 59 31.1
30.3
10.318
11.93
3 4842
46J6
8.67
6 44 37.62
4
6 52 33.41 ' 34.09
22 54 32.7
31.8
10.306
12.94
3 59.27
46.16
8.63
6 48 34.18
5
6 56 40.59 41.30
22 49 10.3
9.3
10.293
13.93
4 9.93
46.16
8.59
6 52 30.74
6
7 0 47.47148.20
22 43 24.1
23.0
10.279
14.92
4 20.25
46.17
8.54
6 56 27.30
7
7 4 54.03 54.78
22 37 14.3
13.1
10.265
15.90
4 30.23
46.18
849
7 0 23.86
8
7 9 0.23
1.01
22 30 40.9
39.6
10.251
16.89
4 39.85
46.20
844
7 4 9041
9
7 13 6XH
6.85
22 23 44.1
42.7
I0J35
17.87
4 49.13
46.22
8.38
7 8 16.97
10
7 17 11.47
12.31
22 16 24.1
22.5
10.218
18.82
4 58X>2
46.25
8.32
7 12 13.53'
11
7 21 16.49
17.35
22 8 41.0
39.2
10.201
19.77
5 6.52
4628
8.26
7 16 10.09
12
7 25 21.09
21.97
22 0 35.0
33.0
10.184
20.73
514.59
46.32
8.20
7 20 6.65
13
7 29 25.15
26.15
21 52 6.2
4.1
10.165
21.67
6 22.23
46416
8.14
7 24 a20
14
7 33 28.93
29.85
21 43 14.9
12.7
10.145
22.61
5 29.39
4641
8.08
7 27 59.76
15
7 37 32.13
33.07
2134 1.3
:59.1
10.125
23.53
5 36XM
4646
SJOl
7 31 56.32
16
7 41 34.82
35.78
21 24 25.6
23.4
10.103
24.44
6 42.17
46.52
7.94
7 35 52.88
17
7 45 37X)0, 37.97
21 14 28.1
25.7
10.081
25.35
5 47.81
46.59
7.87
7 39 4944
1 ^9
7 49 38.641 39.63
21 4 8.9
6.3
10.058
26.25
5 52.81
46.67
7.80
7 43 45.99
' 19
7 53 39.74140.73
20 53 28.4
25.5
10.034
27.13
5 5744
46.75
7.72
7 47 42.55
20
7 57 40.27,41.27
20 42 26.7
23.7
10.010
28.01
6 1^
46.83
7.64
7 5139.11
21
8 140.22' 41 24
20 31 4.1
1.1
9.986
28.88
6 4.74
4691
7.56
7 55 35.67
22
8 5 39.591 40.62
20 19 20.8
17.8
9.961
29.73
6 7,51
47 00
748
7 59 32.22
23
8 9 38.37
39.40
20 7 17.2
14.1
9.936
30.57
6 9.70
47.09
7.401 8 3 28.78
24
8 13 36.57
37.59
19 54 53.5
50.2
9.912
3141
6 11.28
47.19
7.32 8 7 25.33
25
8 17 34.17! 35.18
19 42 9.9
SA
9.887
32.23
6 12.24
4729
7.24 8 11 21.89
26
8 2131.17:32.18
19 29 6.7
3.3
9.862
33.04
6 12.61
47.89
7.16, 8 15 18.45
27
8 25 27.55
28.57
19 15 44.2
40.7
9.837
33.84
6 1241
47.50
7.08
8 19 15X)1
28
8 29 23.34
24.36
19 2 2.6
:59.0
9.812
34.63
6 11.60
47.62
6.99
82311.56
29
8 33 18.52
19.54
18 48 2.2
:58.5
9.787
3541
6 10.23
47.74
6.90
8 27 ai2
30
8 37 13.12
14.13
18 33 43.2
89.5
9.762
36.17
6 8.27
47.86
6.81
8 31 4.68
31
8 41 7.13
8.12
18 19 6.0
2.2
9.737
36.93
6 5.71
47.98
6.72 8 35 1.24
Aug 1
8 45 0.53
1.50
18 4 10.8
7.0
9.712
37.68
6 2.56
48.10
6.64! 8 38 57.79
2
8 48 53.33
54.29
17 48 57.8
54.0
9.689
3841
5 58.85
48.21
6.55 8 42 54.35
3
8 52 45.54
46.50
17 33 27.3
23.5
9.665
39.13
5 54.55
48.35
6.46 8 46 50.90
4
8 56 87.17
38.12
17 17 39.7
35.8
9.641
39.85
5 49.70
48.48
6.38 8 50 47.46
! ^
9 0 28.23
29.16
17 135.1
31.2
9.617
40.54
5 44.27
48.61
6.29; 8 54 44.02
6
9 4 18.71
19.62
16 45 18.9
9.9
9.593
41.23
5 38J7
48.75
6.21, 8 58 40.58
' 7
9 8 8.61
9.50
16 28 36.3
324
9.569
41.90
5 31.69
49.89
6.121 9 2 37.13
8
9 1157.95
58.81
16 1142.7
38.9
9.545
42.57
5 24.53
49X>4
6.04; 9 6 33.69 >
9
9 15 46.71
47.54
15 54 33.3
29.5
9.521
43.22
5 16.79
49.19
5.96! 9 10 30J5I
10
9 19 34.90
35.71
15 37 SA
4.6
9497
ASM
5 8.48
49.35
5.871 9 14 26.81 ,
11
9 23 22.55
23.34
15 19 28.4
24.7
9473
44.49
4 59.61
49.52
5.79; 9 18 23.36
12
9 27 9.63
ia43
15 133.5
29.9
9450
45.12
4 50.17
49.69
5.71 ! 9 22 19.92'
1 1'
9 30 56.15
56.98
14 43 24.2
20.6
9427
45.70
4 40.16
49.86
5.63 9 26 16.471
! 14
9 34 42.12
42.92
14 25 0.8
.57.3
9.404
46J7
4 29.55
50X»
5.55 9 30 13.03
15
9 38 27.53
28.26
14 6 23.6
20.3
9.381
46.83
4 18.36
50.21
5.47 9 34 9.59
16
9 42 12.40
13.09
13 47 33.0
29.8
9.358
47;S9
4 6.64
50.39
5.40
9 88 6.14
17
9 45 56.75
57.39
13 28 29.2
26.1
9.336
47.93
3 54.35
50.58
5.33
9 42 9.70
18
9 49 40.57
41.15
13 9 12.6
9.6
9.313
4846
3 41.55
50.78
5.26
9 45 59.25
1 19
9 53 23.87
24.42
12 49 43.5
40.6
9.292
48.97
3 28.23
5a98
5.19
9 49 55J1
20
9 57 6.66
7.17
12 30 2.4
:59.6
9.271
4946
3 14.38
51.18
5.12
9 53 52.87
21
10 0 48.94
4941
12 10 96
6.9
9.251
49.95
3 ojoe
51.38
5.05
9 57 48.92
22
10 4 30.76
31.19
11 50 5.2
2.7
9.231
50.43
2 45.23
51.59
AM
10 1 4547
23
10 8 12.11
12.50
11 29 495
47.3
9.211
50 88
2 29.94
51.80
4.91
10 5A2m
1 2*
10 11 Mm
53.36
11 9 23.0
21.1
9.193
51.33
2 14.23
52.01
4.85
10 9 38.58
25
10 15 33.47
33.78
10 48 46 0
444
9.176
51.75
1 58.12
52.22
4.79
10 13 35.14
1 »
10 19 13.51
13.78
10 27 58.9
574
9.159
52.18
1 41.68
5244
4.73
10 17 31.69
27
10 22 53.15 53.38
10 7 1.8
00.6
9.144
52Ji8
124.74
52.65
4.67
10 21 28.24 1
1 ^
10 26 32.43,32.61
9 45 55.1
54.0
9.129
52.98
I 747
52.88
4.61
10 25 24.79
' 29
10 30 11.36' 11.49
9 24 39X)
38.1
9.115
53.36
0 49.86
53.10
4.55
10 29 21.35,
90
10 33 49.92 50.01
9 3 13.9
13.3
9.102
53.74
0 31.96
53.32
4.50
10 33 17.91
L_"
10 37 28.17 28.21
f 8 41 40.1
39.7
9.089
54.09
-h 0 13.77
15 53.54
1 445
10 37 14.46
For Mtam Intarral of aainidlainetar paaalng tha maHdlan, aubtract 0*.18 ftoin the aldaiaal InlarvaL
SOLAR EPHEMERIS, 1855. 275
AT WASHINGTON MEAN AND APPARENT NOON. |
APPARENT
APPARENT
HOURLY
Equation
of Time
for
Stmldi-
Sidereal
Dua.
BIGHT ASCENSION.
DECLINATION.
MOTION.
ameter
alAp.
Time of
SemkL
Sidereal Time
of Mean
Ap-
Ap-
Righi
Decli-
DAtioa
BfeanNooa
pareot
Noon.
MwNooo.
parant
Noon.
AMen-
•ion.
*Hr"
narenl
Noon.
■ss?
Noon.
h. m. ■.
a.
O 1 N
II
fl.
n
m. a.
m. a.
h. m. «.
Sept I
10 41 6.12
6.11
-h 8 19 57.8
57.7
9.076
54.44
- 0 4.74
15 53.77
1 4.40
10 41 11.01
S
10 44 43.78 43.73
7 58 7.3
7.5
9.065 54.77
0 23.55
54.00
4.36
10 45 7.56
s
10 48 21.18*21.09
7 36 8.9
9.5
9.054 55.09
0 42.61
5423
4.32
10 49 4.12
4
10 51 58.34 58.19
7 14 8X)
3.8
9.044
55.40
1 1.91
54.46
4.28
10 53 0.68
5
10 55 35.26 35.08
6 51 49.9
51.0
9.034
55.69
121.43
54.69
4.25
10 56 57.23
6
10 59 12.00 11.76
6 29 29.9
31.4
9.026
55.95
141.18
54.93
4.22
11 0 53.78
7
11 2 48.52! 48.23
6 7 3.4
5.2
9.018
56.24
2 1.16
55.17
4.20
11 4 50.33
8
11 6 24.86
24.52
5 44 30.6
32.8
9.011
56.49
2 21.34
55.41
4.18
11 8 46.89
9
11 10 \J02
0.63
5 21 52.0
54.6
9.004
56.73
2 41.70
55.65
4.16
U 12 43.44
10
11 13 37.05
36.60
4 59 7.9
10.8
8.998
56.95
3 2.24
55.90
4.14
11 16 39.99
11
11 17 12.94 12.44
4 36 18.6
21.8
8.991
57.16
3 22.93
56.15
4.12
11 20 36.55
IS
1120 48.71 48.16
4 13 24.5
28.1
8.986
57.35
3 43.76
56.41
4.10
11 24 33.10
13
1124 24.39 23.79
3 50 26.0
29.9
8.982
57.53
4 4.72
56.67
4.09
11 28 29.65
U
11 28 0.00;:59.33
3 27 23.3
27.6
8.979
57.69
4 25.78
56.93
4.08
11 32 26.21
15
113135.50 34.79
3 4 16.9
21.5
8.977
57.85
4 46.91
57.19
4.07
11 36 22.76
16
1135 10.95 10.19
2 41 7.1
12.1
8.974
57.98
5 8X)9
57.46
4.06
11 40 19.32
17
1138 46.38 45 57
2 17 54.3
59.6
8.973
58.09
5 29.31
57.73
4.06
11 44 15.87
— 18
11 42 21.801 20.94
154 38.9
44.5
8.974
58.20
5 50.54
58.00
4.07
11 48 12.43
19
1145 57.22*56.31
1 31 21.1
27.1
8.974
58.29
6 11.74
58.27
4.08
11 52 8.98
80
11 49 32.66 1 31.69
1 8 1.4
7.8
8.976
58.36
6 32.88
58.54
4.09
11 56 5.53
21
11 53 8.151 7.13
0 44 40.0
46.7
8.979
58.42
6 53.98
58.81
4.10
12 0 2.09 1
22
11 56 43.71 42.64
+ 0 21 17.3
24.3
8.983
58.47
7 14.99
59 09
4.11
12 3 58.64
23
12 0 19.36' 18.23
- 0 2 6.3
:59.1
8.987
58.51
7 35.86
59.37
4.12
12 7 55.19
24
12 3 55.13 53.94
0 25 30.7
23.1
8.993
58.53
7 56.61
59.65
4.14
12 11 51.75!
25
12 7 31.04 29.81
0 48 55.5
47.5
8.998
58.53
8 17.21
59.93
4.16
12 15 48.30
26
12 11 7.11 5.83
1 12 20.2
11.9
9.007
58.53
8 37.63
60.20
4.19
12 19 44.86
27
12 14 43.36 42.03
1 35 44.7
36.0
9.016
58.51
8 57.84
60.47
4.22
12 23 41.41
28
12 18 19.82 18.44
1 59 8.6
:59.6
9.026
58.48
9 17.82
60.74
4.25
12 27 37.97
29
12 21 56.53' 55.09
2 22 31.5
22.3
9.036
58.44
9 37.58
61.01
4.29
12 31 34.52
30
12 25 33.49
32.00
2 45 53.3
43.7
9.048
58.39
9 57.08
15 61.28
4.33
12 35 31.07
Ocu 1
12 29 10.73
9.19
3 9 13.6
3.6
9.060
58.31
10 16.29
16 1.55
4.37 12 39 27.63
2
12 32 48 J8
46.69
3 32 31.9
21.7
9.073
58.22
10 35.21
1.82
4.41 12 43 24.18
3
12 36 26.15
2451
8 55 48.0
37.5
9.087 58.12
10 53.82
2.09
4.45 12 47 20.73
4
12 40 4.36
2.66
4 19 1.5
-.50.6
9.102 58.00
11 12.09
2.36
4.50 12 51 17.28
5
12 43 42.93
41.19
4 42 12.0
0.8
9.116 57.88
11 30.03
2.63
4.55,12 55 13.84
6
12 47 81.88
20.12
5 5 19.2
7.7
9.132 57.73
1147.63
2.91
4.61112 59 10.39
7
12 51 1^
:59.43
5 28 22.6
10.9
9.149 57.56
12 4.84
3.18
4.67; 13 3 6.9^
8
12 54 41.05
39.17
5 51 21.9
10.0
9.166: 57.38
12 21.66
3.46
4.73' 13 7 3.50
9
12 58 21.27
19.35
6 14 16.7
4.7
9.183
57.19
12 38.07
3.73
4.80 13 11 0.05
10
13 2 1.94
0.00
6 37 6.7
:54.7
9.202
56.98
12 54X>4
4.00
4.87 13 U 56.60
11
13 5 43.08
41.06
6 59 51.3
38.9
9.222^ 56.75
13 9.53
4.28
4.94 13 18 53.16
12
13 9 24.70
22.64
7 22 30.2
17.6
9.242' 56.51
13 24.53
4.55
5.01 13 22 49.71
13
13 13 6.83
4.73
7 45 3.1
:50.4
9.862 56.25
13 39.04
4.83
5.09 13 26 46.26
14
13 16 49.46
47.32
8 7 29.6
16.7
9.284' 55.97
13 53.06
5.11
5.17;13 30 42.81
15
13 20 32.63
30.45
8 29 49.1
36.1
9.307
55.67
14 6.55
5.39
5.25 13 34 39.37
16
13 24 16.35
14.13
8 52 1.2
:48.1
9.331
55.35
14 19.47
5.67
5.33 13 38 35.92
17
13 28 0.63
-.58.37
9 14 5.6
:52.4
9.355
55.02
14 31.79
5.95
5.41 13 42 32.48
18
13 31 45.48
43.18
9 36 1.9
:48.5
9.379
54.68
14 43.50
6.23
5.50 13 46 29.03;
19
13 35 30.93
28.59
9 67 49.7
36.2
9.405
54.32
14 54.62
6.51
5.59' 13 50 25.58
20
13 39 16.98
14.61
10 19 28.7
15.1
9.432
53.94
15 5.14
6.79
5.68 13 54 22.14 |
21
13 43 3.64
1.24
10 40 58.4
44.8
9.459
53.54
15 15.02
7.06
5.77
13 58 18.69
22
13 46 50.96
48.53
11 2 18.4
4.8
9.487
53.13
15 24.25
7.33
5.86
14 2 15.25 !
23
13 50 38.95
36.49
11 23 28.4
14.8
9.514
52.71
15 32.78
7.60
5.96
14 6 11.801
24
13 54 27.61
25.12
1144 28.1
14.5
9.543
5227
15 40.60
7.87
6.06
14 10 8.36
25
13 58 16.98
14.46
12 5 17.0
3.5
9.573
51.82
15 47.69
8.13
6.16
14 14 4.91 j
26
14 2 7.08
4.54
12 25 54.9
41.4
9.604
51.35
15 54.07
8.39
6.27
14 18 1.47
27
14 5 57.91
55.35
12 46 21.3
7.8
9.634
50.86
15 59.72
8.65
6.38
14 215802
28
14 9 49.48
46.89
13 6 35.8
22.3
9.666
50.36
16 4.64
8.90
6.49
14 25 54.58
29
14 13 41.81
39.20
13 26 38.0
24.5
9.698
49.83
16 8.81
9.15
6.60
14 29 51.14
30
14 17 34.93
32.30
13 46 27.5
14.2
9.730
49.29
16 12.21
9.40
6.71
14 33 47.69
31
14 21 28.83
26.19
14 6 4.0
:50.9
9.763
48.75
16 14.81
9.65
6.82
14 37 44.25
32
14 25 23.55
20.90
-14 25 27.2
14.2
9.796
48.18
.16 16.64
16 9.89
I 6.93
14 41 40.80
For Mean IniarnU of aemldiameter paaalof the meridian, aabiract C.IB from tbe sidereal InterraL
278 MOON CULMINATIONS.
p
WASHINGTON
MERIDIAN.
MmnSo-
larOale
Side-
roftl
Dm.
Limb
and
Time.
IbrI boor
of Loo.
8ld.Tlme
DtclinaUon.
Lof . rnr. of
Ihourof
Loo.
Naof
Surin
foUow.
iofCht.
Jan. S7
d
26
I.L.
h. in. «.
4 12 45.62
S.1S365
67.79
H-SS 4{ 45.2
+2.69504
30
27
27
I.U.
4 39 32Ji5
S.13010
68.29
-^24 11 59.6
+2.60826
33
28
27
I.L.
5 6 41.46
S.13551
68.69
-^25 23 44.6
+2.49289
35
28
28
I.U.
5 34 8.56
2.13940
68.96
+26 16 9.3
+2.32732
38
29
28
I.L.
6 1 47.05
2.14147
69.08
-+-26 48 33.5
+2.04646
39
29
29
I.U.
6 29 29.39
2.14131
69.03
•^27 0 38.6
-H).97805
43
30
29
I.L.
6 57 7.04
2.13889
68.80
-^26 52 23.5
—1.96237
44
30
30
Lu.
7 24 31.41
2.13426
6840
•4-26 24 64
— 2.S8126
47
31
30
I.L.
7 51 34.66
2.12758
67.85
-h25 36 31.2
— S.45606
48
31
31
Lu.
8 18 10.30
2.11931
67.18
+24 SO 37.6
— S.573S8
52
Feb. 1
31
I. L.
8 44 13.25
2.10974
66.45
+83 7 38.5
— S.65906
53
I
82
n.u.
9 11 52.24
2.09941
65.61
+S1 28 55.6
—2.72485
57
2
32
II. L.
9 36 42.13
2.08904
64.80
+19 86 2.3
—2.77645
59
2
33
ILu.
10 0 57m
2.07886
64.04
-t-17 30 30.3
—2.81736
62
3
33
ILL.
10 24 39.7S
2.06948
63J)7
+15 13 53.7
—2.85011
64
3
34
ILu.
10 47 54.06
2i)6144
62.80
+12 47 454
-S.87622
73
4
34
ILL.
11 10 4540
24)5505
62.37
+10 13 34.9
— S.89683
75
4
35
ILu.
11 33 19.77
2.05062
62.08
-H 7 32 48.5
— S.91278
77
5
35
U.L.
11 55 44.04
2i>4847
61.93
+ 4 46 51.6
—2.92454
78
5
36
ILu.
12 18 5J0
S.04877
61.97
+ 1 57 4.9
—2.93253
83
6
37
ILL.
12 40 82.93
S.0518S
62.22
— 0 55 6.5
—2.93682
85
6
37
ILu.
13 3 13.98
S.05763
62.68
— 3 48 154
—2.93741
89 '
7
38
ILL.
IS 26 17.98
2.06624
63.36
— 6 40 54.5
—2.93415
90|
7
38
ILu.
13 49 54.26
2.07754
64.24
— 9 31 24.3
-2.92637
94
8
39
U L.
14 14 12.47
2.09144
65.32
—12 17 554
-S.91348
95
8
39
n.u.
14 39 22.21
2.10763
66.59
—14 58 26.2
—2.89409
97
9
40
ILL.
15 6 33.17
2.12566
68.04
—17 30 35.9
—2.86664
100 ,
9
40
ILu.
15 32 53.52
2.14507
69.62
—19 51 44.1
—2.82834
106
10
41
ILL.
16 1 30.11
2.16504
71.31
—21 58 51.0
—2.77465
107
U
41
ILu.
16 31 S6.97
2.18462
72.98
—23 48 384
-S.69884
112:
11
42
n.L.
17 S 43.77
2.20275
74.55
—25 17 35.5
—2.58755
113
IS
42
ILu.
17 35 15.01
2.21829
75.92
—26 22 12.0
—2.40936
116
IS
43
ILL.
18 8 48.49
2.23015
76.98
—26 59 13.2
—2.04741
117
13
43
ILu.
18 43 6 78
2.23744
77.62
—27 6 5.9
^1.64366
13
44
ILL.
19 17 47.24
2.23962
77.77
—26 41 12.5
+2.31196
14
44
ILu.
19 52 25.48
2.33669
7744
—25 44 144
+2.56098
14
45
ILL.
SO 26 38.42
2.22921
76.71
—24 16 15.8
+2.71098
15
45
ILu.
21 0 6.78
2.21793
75.66
—22 19 35.9
^2.81282
15
46
ILL.
21 32 37.22
2.20407
7441
—19 57 35.7
+2.88466
16
46
ILu.
22 4 2.72
2.18874
73.07
—17 14 19.1
+2.93586
16
47
Ll.
22 31 58.34
2.17322
71.72
—14 14 08J
+S.97116
17
47
Lu.
S3 1 16.88
2.15832
70.45
—11 1 28.4
+S.99436
17
48
Ll.
S3 29 38J8
2.14478
69.32
— 7 40 38.0
+3.00768
16
48
Lc.
23 .57 11.27
2.13329
68.38
— 4 15 34.6
+3X)1S72
18
49
Ll.
0 24 4.86
2.12407
67.69
— 0 49 54.9
+3X)1038
19
50
Lu.
0 50 28.67
2.11741
67.SS
+ 2 33 7.5
+3.00164
19
50
Ll
1 16 33.58
2.11328
66.95
+ 5 50 42.9
+2.98680
SO
51
Lu.
1 42 27.39
2.11153
66.87
+ 9 0 23.1
+8.96611
14 !
SO
51
Ll.
2 8 18.97
S.11S01
66.93
+11 59 58.2
+2.93920
15
21
52
Lu.
S 34 15.56
S.11435
67.13
+14 47 32.8
H-2.90572
21
MOON CULMINATIONS. 279
WASHINGTON
MERIDIAN.
MwoSo.
real
Date.
limb
and
Traneit.
Time.
Lof . rmr. of
OA.R.
fori hour
ofLoa.
Sid. Time
Semi. pas.
MeridW
Lof . var. of
C 'a Dm. for
llKmrof
ofLon.
No. of
Star in
follow-
ing Cat.
Feb. 21
d.
52
Ll.
h. m. a.
3 0 23.23
2.11813
6746
O 1 n
-hi 7 21 24.2
+2.86481
22
23
53
I.U.
3 26 46.51
2.12285
67.89
-hl9 40 1.7
+2.81505
26
22
53
I.L.
3 53 28.42
2.12819
68.31
-h21 42 3.2
+2.75350
27
23
54
I. U.
4 20 29.77
2.13335
68.74
-♦-23 26 16.8
+2.67649
30
23
54
I.L.
4 47 49.58
2.13790
69.11
+24 51 39.7
+2.57789
31
24
55
I.U.
5 15 24.86
2.14135
69.39
-h25 57 22.3
-H244454
35
25
55
I.L.
5 43 10.43
2.14326
69.54
•^26 42 48.0
+2.24522
37
25
56
I. u.
6 11 0.08
2.14331
69.53
-h27 7 37.2
+1.85938
42
26
56
I.L.
6 38 46.41
2.14143
69.34
+27 11 46.6
—1.48621
43
26
57
I.U.
7 6 21.63
2.13745
68.98
+26 55 324
—2.11852
47
27
57
I.L.
7 33 38.40
2.13162
6844
+26 19 28.7
—2.35919
48
27
58
I.U.
8 0 3029
2.12432
67.79
+25 24 25.3
—2.50678
51
28
58
I.L.
8 26 52.26
2.11585
67X)5
+24 11 25.2
—2.61039
53
28
59
Lu.
8 52 41.02
2.10644
66.28
+22 41 444
-2.68825
56
Mar. 1
59
Ll.
9 17 55.11
2.09638
6548
+20 56 45.3
—2.74894
57
1
60
Lu.
9 42 34.76
2.08612
64.67
+18 57 55.1
—2.79699
63
2
60
Ll.
10 6 41.77
2.07642
63.92
+16 46 44.7
—2.83537
64
2
61
Lu.
10 30 19.34
2.068U2
63.27
+14 24 44.2
—2.86609
70
3
61
n.L.
10 55 37J54
2.06103
62.74
+11 53 26.0
—2.89059
72
3
62
n.u.
11 18 28.98
2.05563
62.34
+ 9 14 20.7
—9.90977
75
4
62
n.L.
U 41 7.13
2.05234
62.10
+ 6 28 57.9
—2.92435
76
4
63
n.u.
12 3 38.36
2.05113
62.03
+ 3 38 47.8
-2.93460
81
5
64
ILL.
12 26 9.68
2.05234
62.16
+ 0 45 22.7
—2.94072
82
5
64
ILu.
12 48 48.80
2.05602
6244
— 2 9 44.1
—2.94290
88
6
65
U.L.
13 11 43.58
2.06221
62.92
— 5 4 56.8
-2.94111
89
6
65
ILu.
13 35 2.26
2X)7090
63.60
— 7 58 334
—2.93495
93
7
66
ILL.
13 58 53.39
2.08195
6447
—10 48 43.9
—2.92374
94
7
66
ILu.
14 23 25.38
2.09523
65.52
— 13 33 28.9
—2.90669
96
8
67
ILL.
14 48 46.47
2.11039
66.76
—16 10 40.9
—2.88256
97
8
67
ILu.
15 15 4.67
2.12675
68.13
-18 37 554
—2.84945
104
9
68
ILL,
15 42 2642
2.14424
69.59
—20 52 37.3
—2.80448
105
9
68
n. u.
16 10 55.87
2.16223
71.05
—22 51 57.6
—2.74299
110
10
69
ILL.
16 40 34.99
2.17910
7249
—24 82 584
—2.65718
111
10
69
ILu.
17 11 21.71
2.19440
73.85
—25 52 39.6
—2.53176
114
11
70
ILL.
17 43 9.32
2.20720
75.02
—26 48 82
—2.32708
115
12
70
n.u.
18 15 46.60
2.21668
75.88
—27 16 51.8
—1.86532
120
12
71
ILL.
18 48 57.54
2.22218
76.34
—27 16 54.8
+1.86705
121
13
71
n.u.
19 22 23.58
2.22338
7641
—26 47 8.8
+2.34984
126
13
72
ILL.
19 55 45.09
2.22041
76.11
—25 47 31.6
-4-2.57026
127
14
1
72
n.u.
20 28 43.75
2J21364
7549
—24 18 554
+2.70970
14
73
ILL.
21 1 4.69
2.20368
74.57
—22 23 17.1
+2.80723
15
73
n.u.
21 32 37.79
2.19221
73.48
- 20 3 20.7
+2.87799
15
74
n.L.
22 3 17.68
2.17935
72.34
—17 22 25.8
+2.92973
16
74
ILu.
22 33 3.53
2.16649
71.20
—14 24 16.8
+2.96722
16
75
n.L.
23 1 58.48
2.15428
70.19
—11 12 45.1
+2.99319
17
75
ILu.
23 30 7.97
2.14364
69.29
— 7 51 464
+3/)0948
17
76
Ll.
23 55 22.55
2.13482
68.53
— 4 25 9.9
+3.01743
18
77
Lu.
0 22 25.97
2.12801
67.99
— 0 56 33.6
+3.01792
18
77
Ll.
0 49 846
2.12352
67.64
+ 2 30 38.1
-h3.01161
19
78
Lu.
1 15 38.67
2.12138
6749
+ 5 53 16.6
+2.99873
280 MOON CULMINATIONS.
p —
WASHINGTON
M£RTniAN.
Mean So-
ur Dale.
SMo-
real
Date.
Umb
and
TraiMiL
Time.
Lof. Tar. of
OAR.
fori boor
ofiXML
SULUme
Semi pae
Meridlao.
DadlaatloD.
Ltt|.rar.of
C^Daclbr
Ihourof
Loo.
Naof
Slarin
follow.
iofCU.
d
h. in. <.
a.
O 1 n
Mar. 19
78
Ll.
1 42 5.13
2.12144
67.52
^- 9 8.29.5
+2.97918
20
79
I.U.
2 8 34.69
2.12330
67.74
+12 13 38.5
+2.95263
80
79
Ll.
2 35 14.14
2.12674
68.09
-1-15 6 21.5
-•-2.91859
1
21
80
I.U.
3 2 8.43
2.13120
68.48
-»-17 44 33Ji
+2.87604
24
21
80
Ll.
3 29 20.51
2.13665
68.94
-h20 6 24.5
-•-2.82313
25,
22
81
Lu.
3 56 51.94
2.14165
69.38
-h22 10 16.7
-•-2.75754
30
22
81
Ll.
4 24 41.90
2.14591
69.78
-h23 54 50.5
+2.67468
31
23
82
Lu.
4 52 47.49
2.14923
70.09
-».25 19 2.9
+2.56691
35
23
82
Ll.
5 21 3.84
2.15124
70.28
+26 22 8.6
+2.41801
37
24
83
Lu.
5 49 24.51
2.15134
70.30
-1-27 3 42.2
+2.18734
41
24
83
Ll.
6 17 41.81
2.14947
70.13
-«-27 23 39.9
+1.66317
1
42
25
84
Lu.
6 45 48.11
2.14548
69.79
-t-27 22 17.3
—1.77443
45
26
84
Ll.
7 13 35.27
2.13960
69.29
H-27 0 7.1
—2.20793
46
26
85
Lc.
7 40 56.64
2.13195
68.65
-•-26 18 1.2
—2.41273
^® ,
27
85
Ll.
8 7 46.88
2.12291
67.91
•4-25 17 3.1
—2.54456
51 1
27
86
Lu.
8 34 2.44
2.11285
67i)9
H-23 58 27.7
—2.63879
53
28
86
Ll.
8 59 41.55
2.10262
66.23
+22 23 35.2
—2.70995
54
28
87
Lu.
9 24 44.39
2.09237
65.38
-t-20 33 48.8
—2.76582
67 '
29
87
Ll.
9 49 12.86
2.08255
64.59
+18 30 36.0
—2.81088
59
29
88
Lu.
10 13 9.85
2.07359
63.88
+16 15 22.5
—2.84726
64
30
88
Ll.
10 36 39.21
2X>6601
63.26
+13 49 34.3
—2.87674
68'
SO
89
Lu.
10 59 46.77
2.06005
62.78
+11 14 37.2
—2^0045
74
31
89
Ll.
11 22 38.31
2X)5607
62.45
+ 8 31 57^
—2.91919
76!
31
90
Lu.
11 45 20.19
2.05412
62.29
+ 5 43 1.3
—2.93339
78
April 1
91
Ll.
12 7 59.41
2.06458
62.29
+ 2 49 20.0
—2.94345
80
1
91
Lu.
12 30 4340
2.05736
6249
— 0 7 34X)
-2.94932
83
2
92
ILL.
12 55 45.73
2.06259
62.90
— 3 6 2.3
—2.95105
87
2
92
ILu.
13 19 4.75
2.07021
6348
— 6 4 l7Ji
—2.94822
89
3
93
ILL.
13 42 50.68
2.08019
64.23
— 9 0 25 J
—2.94051
90
8
93
ILu.
14 7 14.52
2X)9225
65.17
—11 52 21.8
—2.92719
94
4
94
ILL.
14 32 23.24
2.10631
66.29
—14 37 5iJi
—2.90712
95'
4
94
ILu.
14 58 24.10
2.12165
67.55
—17 14 29X)
—2.87898
99
5
95
ILL.
15 25 23.20
2.13781
68.93
—19 39 33.8
-2.84020
101 1
5
95
ILu.
15 53 24 80
2.15410
70.33
—21 50 20.0
—2.78749
no;
6
96
ILL.
16 22 30.76
•2.16995
71.72
—23 43 49.5
—2.71544
'"l
6
96
ILu.
16 52 39.69
2.18506
73.03
—25 17 8.5
—2.61410
112.
7
97
ILL.
17 23 45.68
2.19743
74.13
—26 27 31.7
—2.46273
113.
7
97
ILu.
17 55 39J02
2.20681
74.99
—27 12 32.5
—2.19908
116
8
98
ILL.
18 28 5.59
2.21255
75.52
—27 30 17.5
—1.26160
117
8
98
ILu.
19 0 49.12
2.21433
75.71
—27 19 36.7
+2.09ft40
121
9
99
n.L.
19 33 30.90
2.21200
7549
—26 40 11.1
+242895
122
9
99
ILu.
20 5 54.25
2.20613
74.95
—25 32 35.5
+2.60917
129
10
100
ILL.
20 37 44.84
2.19739
74.15
—23 58 154
+2.72852
131
10
100
ILu.
21 8 52.27
2.18645
73.18
—21 59 17.8
+2.81451
136
11
101
ILL.
21 39 10.55
2.17435
72.10
—19 38 23.1
-e2.87789
137
11
101
ILu.
22 8 3SXH
2.16197
7\J00
—16 58 31.9
+2.92500
142
12
102
ILL.
22 37 16.72
2.15011
69.97
—14 2 56.8
+2.95985
143
12
102
ILu.
23 5 \}M
2.13956
69.05
—10 54 56.3
+2.98471
[
13
103
U.L.
23 32 28.66
2.13085
68.30
— 7 37 50JI
-h«.00117
1
13
103
ILu.
23 59 16.97
2.12418
67.74
— 4 14 54.7
+3.01022
1
1
JMOON CULMINATIONS. 281
WASHINGTON
MERIDIAN.
Mean So-
lar Date.
Side-
real
Date.
Limb
and
Tnmait.
Apparent Rlcbt
XJKenalon m
Time.
Loc. var. of
C'«A.R.
fori hour
ofLon.
Sid. Uroe
Semi. Ma.
Meridian.
Declination.
Log. var. of
C '• Dec. for
1 hour of
ofLon.
No. of
Star in
follow
ingCat.
d.
h. m. a.
a.
O 1 M
1 April U
104
n.L.
0 25 45.06
2.11972
67.37
— 0 49 21.3
H-3.01246
U
105
II. u.
0 52 1.45
2.11763
67.18
4- 2 35 42.7
-1-3.00813
15
105
U.L.
1 18 14.84
2.11796
67.19
-f- 5 57 16.4
-1-2.99743
16
106
I.U.
1 42 18.63
2.12031
67J58
-+. 9 12 26.9
-1-2.98014
16
106
I. L.
2 8 48.72
2.12444
67.72
4-12 18 28.5
-1-2.95569
17
107
I.U.
2 35 36.66
2.12995
68.19
-1-15 12 48.6
-1-2.92330
17
107
I.L.
3 2 46.83
2.13637
68.74
-1-17 52 59.0
-^-2.88184
18
108
I.U.
3 30 21.70
2.14292
69JJ3
4-20 16 48.9
-f 2.82943
18
108
Ll.
3 58 21.49
2.14916
69.89
-1-22 22 21.1
-1-2.76298
19
199
Lu.
4 26 43.87
2.15445
70.38
H-24 7 57.6
+2.67779
33
19
109
Ll.
4 55 24.32
2.15821
70.74
H-25 32 22.4
+2.56538
34
20
110
Lu.
5 24 nos
2.16002
70.92
+26 34 42.1
+2.40773
37
20
110
Ll.
5 53 10.56
2.15957
70.91
H-27 14 29.9
+2.15412
38
21
111
Lu.
6 21 58.26
2.15664
70.69
H-27 31 46.1
+ 1.48572
43
21
111
Ll.
6 50 29.70
2.15134
70.28
H-27 26 56.8
—1.89209
44
22
112
Lu.
7 18 36.12
2.14389
69.68
-1-27 0 49.4
—2.25983
47
22
112
Ll.
7 46 10.43
2.13466
68.91
-1-26 14 29.5
—2.44685
48
23
113
Lu.
8 13 7.28
2.12415
68.06
H-25 9 17.1
—2.56914
52
23
113
Ll.
8 39 23.80
2.11287
67.15
H-23 46 38.3
—2.65734
53
24
114
Lu.
9 4 59.23
2.10133
66.23
H-22 8 3.9
—2.72428
57
24
114
Ll.
9 29 54.79
2.09009
65.32
H-20 15 4.8
—2.77685
58
25
115
Lu.
9 54 13.53
2.07961
64.49
-hi 8 9 9-3
—2.81908
62
25
115
Ll.
10 17 59.55
2.07045
63.77
-1-15 51 42.8
—2.85345
64
26
116
Lu.
10 41 18.44
2.06292
63.18
-hl3 24 6.7
—2.88144
72
26
116
Ll.
11 4 16.34
2.05737
62.74
-hlO 47 42.3
—2.90407
73
27
117
Lu.
11 27 0.17
2.05400
62.46
-h 8 3 49.1
—2.92215
77
27
117
Ll.
11 49 37.28
2.05308
62.36
-K 5 13 45.6
—2.93616
78
28
118
Lu.
12 12 15.47
2.05473
62.45
-h 2 18 55.8
—2.94626
82
28
119
Ll.
12 35 2.87
2.05900
62.73
— 0 39 123
—2.95245
83
29
119
Lu.
12 58 7.89
2.06588
63.22
— 3 39 2.6
-2.95453
88
29
120
Ll.
13 21 89.17
2.07533
63.92
— 6 38 49.5
—2.95207
89
30
120
Lu.
13 45 45.47
2.08714
64.81
— 9 36 33.4
—2.94443
94
30
121
Ll.
14 10 35.32
2.10103
65.87
—12 30 1.3
—2.93075
95
May 1
121
ILu.
14 38 31.07
2.11727
67.10
— 15 16 44.3
—2.90972
97
2
122
ILL.
15 5 14.35
2.13431
68.47
—17 53 58 5
—2.87938
99
2
122
n.u.
15 33 2.42
2.15171
69.93
—20 18 42.9
—2.83702
106
3
123
ILL.
16 1 68.71
2.16879
71.40
—22 27 46.4
—2.77859
107
3
123
ILu.
16 32 2.23
2.18466
72.81
—24 17 54.7
—2.69723
112
4
124
ILL,
17 3 8.83
2.19844
74.05
—25 45 57.3
—2.57990
114
4
124
ILu.
17 35 9.03
2.20917
75.06
—26 49 4.3
—2.39637
116 1
5
125
ILl.
18 7 4856
2.21601
75.72
—27 24 56.9
—2.03543
in''
5
125
ILu.
18 40 49.69
2.21859
76.0U
—27 32 5.0
+1.57403
120
6
126
ILL.
19 13 52.66
2.21687
75.88
—27 9 63.9
+2.26482
121
6
126
ILu.
19 46 37.99
2.21098
75.35
—26 18 49.8
+2.51308
125
7
127
ILL.
20 18 48.95
2.20167
74.54
—25 0 14.7
+2.66153
127
7
127
ILu.
20 50 12.92
2.18980
73.50
—23 16 16.5
+2.76290
134
8
128
ILL.
21 20 42.25
2.17632
72.32
—21 9 36.0
+2.83601
135
8
128
n.u.
21 50 14.18
2.16227
71.11
—18 43 13.6
+2.88992
138
9
129
ILL.
22 18 50.08
2.14857
69.95
—16 0 17.7
+2.92988
139
9
129
ILu.
22 46 34.72
2.13599
68.90
—13 3 56Ji
-♦-2.95914
142
36
282 MOON CULMINATIONS.
1
WASHINGTON
MERIDIAN.
1 MMnSo-
1 lar Date.
i
Side-
real
Dai«.
Umb
aiid
Traofit.
Time.
Log. rar. of
O A. R.
fori hour
oflxm.
Sid. UnM
S«ini paa.
MaridUn.
DaclinatioQ.
Lof . var. of
C^Dacfor
1 hour of
Lon.
No. of
fllarin
follow-
lofOtt
143
! May 10
d
130
n.L.
h. m. •.
83 13 35.10
8.18519
a.
68.00
0 1 M
— 9 57 14.9
-1-2.97978
i '^
130
11. u.
23 39 59.73
8.11668
67.28
— 6 43 10.5
-1-2.99304
148 1
' 11
131
II. L.
0 5 57.96
2.1 1069
66.76
— 3 24 34.2
-1-2.99987
149
U
132
II. U.
0 31 39.43
2.10731
66.47
— 0 4 11.1
-H3.00083
6 <
12
132
ILL,
0 57 13.70
2.10660
66.38
■<- 3 15 18.7
-1-2.99603
7 ,
12
133
n. c.
1 22 49.89
2.10837
66.49
-^ 6 31 18.4
-1-2.98538
13
133
ILL.
1 48 36.59
2.11241
66.79
-*- 9 41 13.9
-h2.96858
13
134
ILu.
2 14 41.21
2.11833
67.25
H-12 42 34.1
-h2.94498
U
134
ILL.
2 41 10.09
2.12565
67.81
+15 32 50.5
-h2.91360
14
135
ILu.
3 8 7.44
2.13367
68.44
-his 9 39.2
-t-2.87303
16
135
Ll.
3 33 17.56
2.14170
69.11
-h20 30 43.5
-(-2.82118
16
136
Lu.
4 1 15.69
2.14950
69.78
.-»-22 33 57.6
-♦-2.75465
16
136
Ll.
4 29 42.12
2.15610
70.36
-h24 17 31.4
-+-2.66839
17
137
Lu.
4 58 31.48
2.16092
70.80
-»-25 39 54.3
-h2.55279
17
137
Ll.
5 27 35.69
2.16346
71.04
-+-26 40 2.9
-4-2UJ8757
18
138
Lu.
5 56 44.89
8.16334
71.07
-H27 17 22.4
-h2.il 193
18
138
Ll,
6 25 47.93
8.16041
70.87
-1-27 31 47.4
-1-1.19590
1
19
139
Lu.
6 54 33.76
8.15479
70.44
-K27 23 45.1
—1.97681
45
19
139
Ll.
7 22 52.54
2.14669
69.80
-+-26 54 6.8
—2.30146
46
SO
140
Lu.
7 50 35.88
2.13656
68.98
H-26 4 7.9
—2.47524
49
SO
140
Ll.
8 17 38.08
2.12500
68.06
-h24 55 16.7
—2.58984
51 1
21
141
Lu.
8 43 55.90
2.11261
67.09
-1-23 29 10.6
—2.67274
55
SI
141
Ll,
9 9 28.88
2.10000
66.09
-h21 47 30.7
—2.73592
56
22
142
Lu.
9 34 18.41
2.08774
65.14
^-19 51 54.7
—2.78547
.W'
22
148
Ll.
9 58 28.05
2.07653
64.29
-hl7 43 56.9
—2.82484
61
83
143
Lu.
10 22 2.85
2.06674
63.55
-hi 5 25 7.8
-2.85667
67 1
as
143
Ll.
10 45 8.76
2.05873
62.95
^-12 56 50.3
-2.88252
681
84
144
Lu.
11 7 52.86
8.05292
62.52
-hlO 20 ^.6
—2.90352
74
84
144
Ll.
11 30 22.64
2.04957
62.25
-h 7 36 55.2
—2.92028
7^
85
145
Lu.
11 52 45.93
2.04887
62.18
-f. 4 47 48.3
—8.93334
80*
85
146
Ll.
18 15 11.38
2.05096
68.31
-h I 54 13.8
—8.94890
^1
86
146
Lu.
18 37 48.01
2J05599
68.65
— 1 8 89J}
—8.94890
87!
86
147
Ll.
13 0 44.91
2.06386
63.21
— 4 0 52.9
-8.95109
88
87
147
Lu.
13 84 UM
2.07452
63.98
— 6 59 18.9
—2.94900
91
87
148
Ll.
13 48 17.62
2.08778
64.96
— 9 55 55.9
—2.94201
98
88
148
Lu.
U 13 12.70
2.10339
66.14
—12 48 32.9
—2.98901
95'
88
149
Ll.
14 39 5.92
2.12093
67.51
—15 34 41.2
—8.90849
97
89
149
Lu.
15 6 5.84
2.13978
69.00
—18 11 30.5
—2.87829
101 .
89
150
Ll.
15 34 18.67
2.15912
70.56
—80 35 45.9
—2.83531
108
30
150
Lu.
16 3 48.14
8.17808
72.17
—88 43 59J0
—2.77474
110
31
151
ILL.
16 37 1.22
8.19610
73.71
—84 88 38.6
—8.68833
111'
31
151
ILu.
17 9 0.02
8.21082
75.05
—85 57 58.0
—2.55991
114
Jue 1
158
ILL.
17 41 57..V)
2.22197
76.09
—86 56 44.4
-h8.34908
115 '
I
158
ILu.
18 15 35.95
2.22863
76.74
—27 86 37.2
-hi. 86683
117
8
153
ILL.
18 49 33.62
8.83032
76.93
—87 85 57.5
-hl.90795
118
8
153
n.u.
19 S3 87.02
8.22689
76.64
—86 54 84.1
-h8.36959
184
3
154
ILL.
19 56 53.68
2.21893
75.96
—25 52 51.3
+2.58024
187
3
154
ILu.
20 29 35.00
2.20729
74.93
—84 83 13.8
-h2.7ll22
131 '
4
155
ILL.
21 1 18.13
2.19299
73.70
—82 88 80.9
-h2.80099
133
4
155
ILu.
81 31 56.08
8.17716
78.35
—80 11 38.7
■♦-8.86516
mj
MOON CULMINATIONS. 283
WASHINGTON
MERIDIAN.
MeuSo.
larDMe.
Skle-
IWl
d.
156
Limb
and
Tmndt.
n.L.
Time.
Lof . var. of
OA.R.
fori hour
of Lon.
Sid. Time
Semi.pu.
Moridjao.
Decllnatioo.
Log. var. of
C '• Dec. for
1 hour of
of Lon.
No. of
SiarlD
follow
iofCal.
June 5
h. m. s.
22 1 27.10
2.16104
71.00
—17 36 22.3
-1.2.91164
137
5
156
n.u.
22 29 54.61
2.14557
69.74
—14 46 23.1
-1-2.94517
142
6
157
II. L.
22 57 24.95
2.13165
66Ji9
— 11 44 59.5
-^-2.96867
143
6
157
n.u.
23 24 6.70
2.11985
67.61
— 8 35 23.9
-+-2.98399
147
7
158
ILL.
23 50 9.95
2.11045
66.85
— 5 20 32.8
+2.99247
149
7
159
n.u.
0 15 44.72
2.10383
66.32
— 2 3 10.5
H-2.99511
3
8
159
ILL.
0 41 1.48
2.10020
66.02
-h 1 14 IM
-^-2.99238
5
8
160
n.u.
1 6 10.74
2.09944
65.93
-h 4 29 8.9
-f 2.98444
8
9
160
n.i.
1 31 22.14
2.10140
66.05
-h 7 39 24.2
-♦-2.97114
11
9
161
n.u.
1 56 44.48
2.10571
66.36
-flO 42 43.8
-1-2.95211
15
10
161
ILL.
2 22 25.69
2.11196
66.81
-hl3 36 55.8
-4-2.92665
16
10
162
n.u.
2 48 32.41
2.11976
67.39
-1-16 19 49.3
-1-2.89360
11
162
n.L.
3 15 9.35
2.12846
68.08
-hl8 49 14.4
-♦-2.85126
U
163
ILu.
8 42 19.30
2.13745
68.79
-♦-21 3 6.6
-h2.79734
12
163
n.L.
4 10 2.40
2.14588
69.48
-♦-22 59 28.1
-e2.72819
• 12
164
n.u.
4 38 16.07
2.15308
70.07
-♦-24 36 31.3
-4-2.63779
13
164
n.L.
5 6 54.76
2.15857
70.53
-1-25 52 48.2
-1-2.51495
14
165
I.U.
5 33 28.80
2.16152
70.78
-<-26 47 11.4
-1-2.33425
U
165
Ll.
6 2 30.77
2.16179
70.82
-h27 19 2.6
-1-2.01072
15
166
Lu.
6 31 28.24
2.15921
70.61
-♦^27 28 13.6
—1.00434
15
166
Ll.
7 0 9.62
2.15369
70.16
-<-27 15 7.4
—2.07737
16
167
Lu.
7 28 24.20
2.14563
69.51
-h26 40 37.0
—2.34967
16
167
Ll.
7 56 3.19
2.13535
68.69
-»-25 45 56.6
—2.50651
17
168
Lu.
8 23 0.31
2.12342
67.77
-h24 32 38.0
—2.61289
52
17
168
Ll.
8 49 12.01
2.11066
66.79
-f-23 2 24.6
—2.69055
53
18
169
Lu.
9 14 37.37
2.09757
65.79
-h21 17 3.0
—2.74958
57
18
169
Ll.
9 39 17.88
2.08479
64.82
-♦-19 18 17.5
—2.79546
59
19
170
Lu.
10 3 16.90
2.07298
63.95
-<-17 7 48.0
—2.83181
62
19
170
Ll.
10 26 39.33
2.06258
63.20
-hl4 47 9.2
—2.86100
64
20
171
Lu.
10 49 31.46
2.05404
62.59
-M2 17 48.3
—2.88440
72
20
171
Ll.
11 12 0.21
2.04770
62.14
-<- 9 41 4.8
—2.90304
74
21
172
Lu.
11 34 13.27
2.04392
61.87
-4- 6 58 14.1
—2.91766
77
21
172
Ll.
11 56 18 86
2.04289
61.80
-<- 4 10 28.3
—2.92886
78
22
173
Lu.
12 18 25.77
2.04477
61.94
-h 1 18 59.0
—2.93682
83
22
174
Ll.
12 40 43.03
2.04972
62.30
— 1 34 59.2
—2.94151
84
23
174
Lu.
13 3 20.13
2.05763
62.86
— 4 30 8.5
—2.94270
88
23
175
Ll.
13 26 26.95
2.06849
63.67
— 7 25 1.3
—2.93997
89
24
175
Lu.
13 50 13.70
2.08218
64.70
—10 17 55J>
—2.93268
94
24
176
Ll.
14 14 50.67
2.09850
65.93
—13 6 54.3
—2.91976
95
25
176
Lu.
14 40 27.95
2.11701
67.34
—15 49 37.4
—2.89960
97
25
177
Ll.
15 7 15.01
2.13698
68.92
—18 23 22.6
—2.87005
100
26
177
Lu.
15 35 19.72
2.15779
70.62
—20 45 4.9
—2.82789
106
26
178
Ll.
16 4 47.26
2.17852
72.35
—22 51 13.4
—2.76768
107
27
178
Lu.
16 35 38.81
2.19791
74.01
—24 38 3.3
—2.68106
112
27
179
Ll.
17 7 49.95
2.21479
75.49
—26 1 42.6
—2.54949
114
28
179
Lu.
17 41 9.95
2.22809
76.67
—26 58 38.9
—2.32777
116
28
180
Ll.
18 15 20.96
2.23679
77.45
—27 25 51.0
-hl.76492
117
29
180
ILu.
18 52 35.50
2.23975
77.74
—27 21 22.6
4-2.01410
120
30
181
U.L.
19 27 16 24
2.23716
77.54
—26 44 34.9
+2.42210
121
SO
181
ILu.
20 1 32.67
2.22965
76.86
—25 36 15.3
+2.63083
129
284 MOON CULMINATIONS.
WASHINGTON
MERIDIAN.
Mean So-
lar Dale.
Sida-
real
Date.
Limb
and
Traiwit.
Apparent Rifht
Aacension Id
•nme.
Loff. Tar. of
tf\A.R.
fori hour
OfLon.
Sld.Tline
Semi paa.
Maridlao.
DMliMtiOD.
Lof Tar. of
C'«Dk. for
Ihourof
Loa.
Naof
Star In
follow- ,
luf Cat 1
d
"
h. m. •.
s.
O 1 M
Joljr 1
182
ILL.
20 35 3.25
2.21793
75.81
—23 58 29i)
-4-2.75412
131
1
182
ILu.
21 7 32.72
2.20314
74.51
—21 54 25.1
+2.83270
135;
2
183
ILL.
21 38 52.49
2.18656
73.08
—19 27 &\Ji
+2.89337
136 1
S
183
ILu.
22 9 0.44
2.16944
71.63
—16 42 53.3
+2.93661
142
3
184
ILL.
22 37 59.54
2.15293
70.28
—13 43 35.4
-♦-2.96642
143
S
184
ILu.
23 5 56.55
2.13808
69X)6
—10 83 55.2
-♦-2.98592
144 ,
4
185
n.L.
23 33 0.61
2.12526
68XH
— 7 17 2a6
+2.99726
146
4
185
ILu.
23 59 21.99
2.11501
67.25
— 3 57 28.7
-4-3.00169
149
5
186
ILL.
0 25 11.60
2.10762
66.68
— 0 86 50.3
+3.00009
1
5
187
ILu.
0 50 40.36
2.10319
66.34
-«- 2 41 48.2
+2.99304
6
6
187
U.L.
1 15 58.80
2.10172
66.22
+ 5 56 4.4
+2.98073
7
6
188
ILu.
1 41 16.89
2.10292
66.29
+ 9 8 45.6
+2.96308
12
7
188
ILL.
2 6 43i»8
2.10650
66Ji6
+12 2 48.1
+2.93957
13
7
189
ILu.
2 32 26.85
2.11217
67.00
-+-14 51 13.1
-•-2.90961
18
8
189
ILL,
2 58 33.10
2.11933
67.54
•4-17 27 4.3
-1-2.87198
21
8
190
ILu.
3 25 7.10
2.12733
68.16
H-19 48 30.4
+2.82478
"26
9
190
ILL.
3 52 11.37
2.13.^61
68.80
-»-21 53 41.6
+2.76522
27
9
191
ILu.
4 19 46.18
2.14342
69.40
-^23 40 57.6
+2.68913
1
10
191
ILL.
4 47 48.78
2.15002
69.92
-♦-25 8 47.1
+2.58894
1
10
192
ILu.
5 16 14.00
2.15482
70.30
-♦-26 15 54J0
+2.44994
11
192
ILL.
6 44 53.89
2.15737
70.49
•4-27 1 23.2
+2.23553
11
193
ILu.
6 13 38.70
2.15724
70.46
^-27 24 43.7
+1.78462
12
193
ILL.
6 42 17.42
2.15430
70.20
-♦-27 25 53.1
— 1.69285
12
194
ILu.
7 10 39.18
2.14860
69.73
-♦-27 5 17.4
—2.19396
19
194
Ll.
7 86 15.79
2.14048
%9J05
-♦-26 23 49X)
—2.41145
14
195
Lu.
8 3 86.86
2.13046
68.21
-♦-25 22 42.3
—234691
14
195
Ll.
8 30 16.94
2.11896
67.30
•4-24 3 28.4
—2.64197
15
196
Lu.
8 56 12.65
2.10638
66.31
-h22 27 50.8
—2.71265
15
196
Ll.
9 21 23.11
2.09338
65.32
-♦-20 37 35.7
—2.76693
16
197
Lu.
9 45 49.53
2.08067
64.38
-4-18 34 nJi
-2.80936
16
197
Ll.
10 9 35.22
2.06892
63.52
-hl6 20 15.8
-2.84267
17
198
Lu.
10 32 44.73
2X)5854
62.78
-»-13 56 31.6
—2.86906
71
17
198
Ll.
10 55 24.03
2.04991
62.17
-♦-11 24 48.7
—2.88986
72 1
18
199
Lu.
11 17 39.72
2.04344
61.73
-♦- 8 46 31.8
-2.90612
77 1
18
199
Ll.
11 39 39.08
2.03922
61.45
+ 6 8 0.3
—2.91824
78
19
200
Lu.
12 1 30/H
2.03802
61JI8
H- 3 15 29.4
—2.92719
81
19
201
Ll.
12 23 21.28
2.03945
61.53
-h 0 25 10.2
—2.93282
82
SO
202
Lu.
12 45 21.48
2.04411
61.87
— 2 26 43.3
—2.93511
86
20
202
Ll.
13 7 39.71
2.05181
62.42
— 5 18 53.2
—2.93410
88
21
203
Lu.
13 30 25.51
2.06236
63.20
— 8 9 55.6
—2.92935
91
21
203
Ll.
13 53 48.86
2.07562
64.20
—10 58 17.1
—2.92025
92
22
204
Lu.
14 17 59.95
2.09150
65.41
—13 42 11.5
—2.90574
97
22
204
Ll.
14 43 8.93
2.10961
66.81
—16 19 32X)
—2.88444
98
23
205
Lu.
15 9 25.43
2.12947
68.38
—18 47 52.5
—2.85412
103
24
205
Ll.
15 36 57.82
2.15034
70.08
—21 4 24.1
—2.81150
105
24
206
Lu.
16 5 62-'^5
2.17129
71.84
—23 5 53.8
—2.75146
110
25
206
Ll.
16 36 11.88
2.19139
73.59
—24 48 49.9
—2.66470
HI
25
207
Lu.
17 7 53.99
2.20952
75.20
—26 9 30.4
—2.53342
112
26
207
Ll
17 40 50.64
2.22443
76.50
—27 4 17.9
—2.30901
114
26
208
Lu.
18 14 46J^4
2.23467
77.38
—27 30 2.2
—1.71427
190
MOON CULMINATIONS. 285
WASHINGTON
MERIDIAN.
Mean So-
lar Dttte.
Sid«.
real
Date.
Limb
arid
Timnsil.
Time.
U^g. rar. of
O A. R.
fori hour
of Lou.
Sid. Time
Semi.paa.
Meridiaa.
DacUnaUoQ.
Log. var. of
C '8 Doc. for
1 hour of
ofLon.
Naof
Surin
foUow-
ingCat.
July 27
d.
208
I. L.
ll. m. 8.
18 49 20.75
2.24010
77.87
O / II
—27 24 22.7
-1-2.03824
121
27
209
I.U.
19 24 8.41
2.24013
77.83
—26 46 11.2
-1-2.43109
124
28
209
I. L.
19 58 43.82
2.23502
77.32
—25 35 434>
^-2.63387
127
28
210
I. U.
20 32 44.11
2.22539
76.42
—23 54 39.5
-1-2.76140
134
29
210
n.L.
21 8 22.05
2.21168
75.24
—21 45 53.2
-1-2.84945
135
29
211
n. u.
21 40 23.05
2.19665
73.89
—19 13 10.2
-f2.91190
137
30
211
ILL.
22 11 15 49
2.18058
72.50
—16 20 48.1
-f-2.95598
139
30
212
ILu.
22 41 1.03
2.16477
71.19
—13 13 12.8
-f 2.98609
143
31
212
ILL.
23 9 44.89
2.15026
70.02
— 9 54 47.8
-•-3.00529
145
31
213
n.ij.
23 37 35.45
2.13754
69.01
— 6 29 38.6
-^-3.01539
148
Aug. I
213
n.L.
0 4 42.31
2.12733
68.21
— 3 1 31.4
-»-3.01792
149
1
214
ILu.
0 31 16.21
2.11979
67.63
-f- 0 26 11.4
-h3.01377
6
a
215
ILL.
0 57 27.79
2.11504
67.27
+ 3 50 30.1
-+^.00362
7
s
215
n.u.
1 23 27.33
2.11307
67.13
-h 7 8 44.1
-f-2.98760
8
8
216
n.L.
1 49 24.41
2.11364
67.21
H-IO 18 29.9
-h2.96564
10
3
216
n. u.
2 15 27.67
2.11641
67.47
-+-13 17 37.7
-h2.93734
18
4
217
n.L.
2 41 44.52
2.12110
67.87
-1-16 4 9.0
-1-2.90199
19
4
217
ILu.
3 8 20.83
2.12697
68.33
+18 36 13.3
-h2.85810
21
5
218
ILL.
3 35 20.61
2.13364
68.83
H-20 52 8.8
-1-2.80380
26
6
218
ILu.
4 2 45.69
2.14025
69.35
-h22 50 20.3
-H2.73592
30
6
219
n.L.
4 30 35.33
2.14638
69.86
-f-24 29 23.4
-1-2.64870
31
7
219
ILu.
4 58 46.34
2.15125
70.26
H-25 48 6.3
-f 2.53282
35
7
220
n. L.
5 27 13.18
2.15436
70.49
-1-26 45 34.1
-f 2.36729
37
8
220
n.u.
5 55 47.98
2.15525
70.54
-+-27 21 11.1
-1-2.08967
41
8
221
n.L.
6 24 21.48
2.15366
70.36
-h27 34 44.8
-M. 10769
42
9
221
n.u.
6 52 43.79
2.14953
69.98
-»-27 26 26.9
—1.97865
9
222
ILL.
7 20 45.24
2.143.36
69.40
-h26 56 55.0
—2.29927
10
222
ILu.
7 48 17.32
2.13424
68.67
-^-26 7 8.4
—2.47353
10
223
n.L.
8 15 13.04
2.12385
67.79
-»-24 58 23.7
— 2J>8961
11
223
ILu.
8 41 28.01
2.11217
66.83
-t-23 32 12.9
—2.67376
11
224
ILL.
9 6 59.98
2.09989
65.85
-f-21 50 15.1
—2.73751
12
224
Lu.
9 29 38.87
2.08785
64.87
-hl9 54 15.4
—2.78691
12
225
Ll.
9 53 47.95
2.07587
63.95
-M7 45 57.1
—2.82568
13
225
Lu.
10 17 18.76
2.06479
63.13
-<-15 27 2.4
—2.85632
13
226
Ll.
10 40 15.88
24)5504
62.43
H-12 59 8.9
—2.88039
14
226
Lu.
11 2 45.02
2.04697
61.85
H-10 23 49.6
—2.89912
14
227
Ll.
11 24 52.43
2.04100
61.44
4- 7 42 32.3
—2.91329
15
228
Lu.
11 46 45.04
2i)373l
61.21
-♦- 4 56 41.3
—2.92345
15
228
Ll.
12 8 30.31
2.03615
61.15
-+-2 7 36.8
—2.93004
16
229
Lu.
12 30 16.05
2.03763
61.29
— 0 43 22.5
-2.93326
83
16
229
Ll.
12 52 10.48
2.04183
61.62
— 3 34 58.1
—2.93312
87
17
230
Lu.
13 14 22.08
2.04895
62.17
— 6 25 48.4
—2.92942
89
17
230
Lx.
13 36 59.72
2.05S66
62.94
— 9 14 27.1
— 2.92179
90
18
231
Lu.
14 0 12.62
2.07108
63.91
—11 59 20.2
—2.90966
94
18
231
Ll.
14 24 10.02
2J09597
65.07
—14 38 43.5
—2.89202
95
19
232
Lu.
14 49 1.07
2.10298
66.40
—17 10 37.2
—2.86747
99
19
232
Ll.
15 14 54.57
2.12144
67.88
—19 32 45.9
—2.83385
101
20
233
Lu.
15 41 57.86
2.14095
69.50
—21 42 36.0
—2.78799
109
20
233
Ll.
16 10 1688
2.16083
71.14
—23 37 16.1
—2.72455
no
21
234
Lu.
16 39 54.24
2.18013
72.78
—25 13 39.1
—2.63422
114
286 MOON CULMINATIONS.
WASfflNGTON
MERIDIAN.
Bf«m So-
ur Dale.
Side-
real
Date.
Limb
and
Tranait.
Aacenaion in
Time.
Lng. rmr. of
ff^aA.R.
fori hour
OfLon
SMLTIme
Seminv
MeridUo.
74.29
DeclinaiioD.
Lof var. of
C'«Dac. for
1 hour of
Loo.
No. of
Suu>ln
follow-
inffCat
115
Aug. 21
d
234
I.L.
h. m. a.
17 10 48.56
2.19753
—26 28 28.6
—249792
22
235
I.U.
17 42 53.01
2.21222
75.60
—27 18 30.9
—2.26269
116
23
235
Ll.
18 15 55.47
2.22316
76.55
—27 40 52.5
—1.58546
117
23
236
Lu.
18 49 88.40
2.22973
77.12
—27 33 16.7
-1-2.06296
119
24
236
I. L.
19 23 40.73
2.23147
77A3
—26 64 26.2
-h2.437l2
121
24
237
I. c.
19 57 40.18
2.22848
76.91
—25 44 11.9
-h2.63l90
127
25
237
I.L.
20 31 15.88
2.22138
76.21
—24 3 39.6
-h2.75967
128
25
238
Lc.
21 4 11.32
2.21107
75.23
—21 55 5.2
-h2.84998
136 1
26
238
I.L.
21 36 15.06
2.19874
74.10
—19 21 41.1
-h2.9l532
137
26
239
Lu.
22 7 21.71
2.18501
72.90
—16 27 18.8
-h2.9625l
142
27
239
ILL.
22 39 54.46
2.17117
71.74
—13 16 13.4
-h2.99555
143 1
27
240
ILu.
23 9 7.68
2.15857
70.68
— 9 52 48.0
-h3.01731
144 1
28
240
ILL.
23 37 34.26
2.14775
69.79
— 6 21 22.2
-h3/)2946
146
28
241
ILu.
0 5 22.67
2.13899
69.09
— 2 46 4.4
-•-3.03327
1
29
242
ILL.
0 82 42.54
2.13277
68.61
-h 0 49 15.8
-h3.02968
2
29
242
ILu.
0 59 43.61
2.12899
68.34
-h 4 21 7.6
-h3X)l916
9
30
243
ILL.
1 26 35.32
2.12769
68.27
-h 7 46 19.1
-h3.00188
11
SO
243
ILu.
1 53 26^5
2.12859
68.38
-Ml 1 59.1
-h2.97773
14
31
244
ILL.
2 20 24.71
2.13143
68.65
-hi 4 5 34.0
-h2.94630
16
31
244
ILu.
2 47 36.46
2.13574
69.04
-1-16 54 47.5
-h2.90676
20
Sept 1
245
ILL.
3 15 6.42
2.14095
B9M
-»-l9 27 39.2
-h2.85750
21 1
1
245
ILu.
3 42 56.99
2.14644
69.98
-»-2l 42 22.1
-h2.79623
29
2
246
ILL.
4 11 8.56
2.15162
70.42
•f-23 37 25.4
-h2.7l917
30
2
246
ILu.
4 39 38.88
2.15591
70.80
-1-25 11 34.3
-h2.6l985
33
3
247
ILL.
5 8 23.32
2.15866
71.06
-+-26 23 52.2
-h248558
35
4
247
n.u.
5 37 14.97
2.15951
71.11
-h27 13 43.9
-h2.28556
1
40
4
248
ILL.
6 6 5.47
2.15797
70.96
-H27 40 56.5
-hi .90255
41 ;
5
248
ILu.
6 34 45.52
2.15403
70.61
-»-27 45 40,9
—1.50225
44 1
5
249
ILL.
7 3 5.84
2.14802
70.07
-+-27 28 31.9
—2.14520
45
6
249
ILu.
7 30 58.07
2.13978
69.36
-»-26 50 21.4
—2.38246
47
6
250
n.L.
7 58 15.29
2.12982
68.51
-H25 52 25.2
—2.52742
48 1
7
250
ILu.
8 24 52.56
2.11840
67.54
-»-24 36 8.1
—2.62798
52
7
251
ILL.
8 50 47.28
2.10636
66.54
-»-23 3 4.6
-2.70296
53,
8
251
ILu.
9 15 58.69
2.09402
65.54
-1-21 14 54.1
—2.76057
8
252
ILL.
9 40 28.05
2X)8189
64.57
•M9 13 17.5
—2.80544
I
9
252
n.u.
10 4 18.21
2.07060
63.68
-hI6 59 54.2
-2.84123
9
253
ILL.
10 27 33.21
2.06047
62.88
-hl4 36 21.2
-2.86955
10
253
ILu.
10 50 18.24
2.05181
62.22
-hi 2 4 13.6
-2.89189
'
10
254
ILL.
11 12 39.08
2.04497
61.70
-h 9 25 1.1
—2.90917
11
254
Lu.
11 32 39.73
2.04023
61.35
-h 6 40 12.3
—2.92205
i
11
255
Ll.
1 1 54 31.91
2.03774
61.18
-1- 3 51 12.1
-2.93094
12
255
Lu.
12 16 20.22
2.03766
61.19
-h 0 59 26.5
—2.93616
1
12
256
Ll.
12 38 11.87
2.03989
61.37
— 1 53 40.2
—2.93782
'
13
257
Lu.
13 0 14.55
2.04489
61.76
— 4 46 41.5
—2.93577
1
13
257
Ll.
13 22 36.26
2.05242
62.34
— 7 38 7.4
—2,92974
1
14
258
Lu.
13 45 25.14
2.06228
63.10
—10 26 22.7
—2.91934
94
14
258
Ll.
14 8 49.41
2.07449
64.05
—13 9 45JI
—2.90)90
95
15
259
Lu.
14 32 57.14
2.08874
65.18
—15 46 23.1
—2.88249
97
15
260
Ll.
14 57 56.21
2.10473
66.47
—18 14 12.6
—2.85341
98,
16
260
Lu.
15 23 53.59
2.12186
67.88
—20 30 59.7
—2.81447
106 1
1
MOON CULMINATIONS. 287
WASHINGTON
MERIDIAN.
Mean So.
larDaie.
Side,
real
Data.
d
260
Umb
and
Tranaiu
Apparent Richt
Aacemion in
Time.
Lof . var. of
O A. R.
for 1 hour
ofLon.
Sid. Time
Semi.pao.
Meridian.
69.34
Declinatioo.
Lof . var. of
C '■ Dec. for
lliourof
ofLon.
No. of
Star in
follow-
in«Cat.
Sept 16
I.L.
)l m. a
15 50 55.12
S.13953
O 1 II
—22 34 16.6
—8.76839
108
17
261
I.u.
16 19 4.40
S.15731
70.87
—24 21 24.3
—8.69044
110
17
261
I.L.
16 48 22.09
2.17397
72.29
—25 49 34.1
—8.58940
111
18
262
I.U.
17 18 45.30
2.18893
73.62
—26 55 59.7
-8.43640
114
18
262
I.L.
17 50 6.75
2.20115
74.69
—27 38 1.7
—8.16253
115
19
263
I.U.
18 22 14.73
2.21008
75.51
—27 53 81.9
—0.81729
120
SO
263
I.L.
18 54 5395
S.21504
75.93
—87 40 16.7
-1-2.14032
121
20
264
I.U.
19 27 47.56
2.21604
76.00
—86 57 49.3
-1-2.45656
125
21
264
I.L.
20 0 34.69
2.21317
75.68
—85 46 1.8
-♦.2.63464
127
21
265
Lu.
20 33 1.89
2.20683
75J09
-84 5 47.8
-•-2.75561
130
22
265
Ll.
21 4 55.25
2.19808
74.26
—81 58 59.3
-+-2.84278
131
22
266
Lu.
21 36 6.33
2.18752
73.31
—19 88 11.9
-♦-2.90782
136
23
266
Ll.
22 6 31.10
2.17644
72.30
—16 36 37.1
-f 2.95606
137
23
267
Lu.
22 36 9.89
2.16554
71.33
—13 87 51.6
-+-2.99149
143
24
267
Ll.
23 5 6.47
2.15567
70.47
—10 5 43.7
-f3.01592
145
24
268
Lu.
S3 33 26.72
2.14737
69.77
— 6 34 15.7
-1-3.03117
148
25
268
Ll.
0 1 19.44
2.14117
69.25
— 8 57 17.1
-1-3.03809
149
25
269
n.u.
0 31 9.35
2.13726
68.95
-4- 0 41 11.8
-1-3.03760
6
26
270
n.L.
0 58 32.95
2.13577
68.84
-h 4 17 89.4
-1-3.02936
7
26
270
U.U.
1 25 54.45
S.13666
68.94
H- 7 48 8.8
-h3.0l395
10
12
27
271
ILL.
1 53 22.86
S.13944
69.17
H-ll 9 30.5
-+-2.99095
27
271
ILu.
S SI 5.08
S.14383
69.58
-hl4 18 49.3
-).2.95969
17
28
272
ILL.
2 49 6.46
S. 14925
70.09
■4-17 13 13.6
-+-2.91932
18
28
272
ILu.
3 17 30.10
2.15515
70.61
+19 50 11.8
-h2.86791
28
29
273
ILL.
3 46 17.00
2.16089
71.15
-+-88 7 36.4
-^2.80295
26
29
273
ILu.
4 15 25.30
2.16578
71.59
-+-84 3 41.9
-4-2.72006
30
30
274
ILL.
4 44 50.55
2.16915
71.92
-h85 37 7.2
-1-2.61118
31
30
274
ILu.
5 14 25.74
2.17056
72.07
-h26 46 58.0
-+-2.46230
37
Oct 1
275
ILL.
5 44 1.86
2.16967
72.03
-^27 32 49.4
-J.2.22773
38
1
275
n.u.
6 13 28.72
2.16604
71.73
-»-27 54 45.7
-hi. 70492
41
2
276
n.L.
6 48 36.07
2.15987
71.22
-♦-27 53 HA
—1.80900
43
2
276
ILu.
7 11 14.24
2.15146
70.50
-4-27 29 25.6
—2.83888
47
3
277
n.L.
7 39 15.35
2.14096
69.62
-h26 44 23.8
—8.44054
48
4
277
II. u.
8 6 33.64
2.12915
68.64
-h25 39 43.5
-2.56787
51
4
278
ILL.
8 33 5.77
2.11631
67.56
-<-24 17 6.6
-2.65750
53
5
278
ILu.
8 58 50.78
2.10312
66.49
-h22 38 14.7
-2.72594
56
5
279
ILL.
9 23 49.77
2.09019
65.42
-H20 44 52.7
—2.77830
57
6
279
ILu.
9 48 5.59
2.07791
64.44
-+-18 38 40.2
—2.81986
68
6
280
ILL.
10 11 42.53
2.06673
63.55
-hie 21 14.7
—2.85286
64
7
280
n.u.
10 34 45.90
2.05710
62.80
H-13 54 8.1
—2.87918
7
281
ILL.
10 57 SI. 72
8.04987
62.18
-+-11 18 49.2
—2.90026
8
281
ILu.
11 19 36.60
8.04364
61.71
-+- 8 36 42.4
-2.91656
8
282
ILL.
11 41 37.53
8.04017
61.44
-+- 5 49 11.9
- 2.92881
9
282
ILu.
IS 3 31.71
2.03914
61.33
-+- 2 57 40.5
—2.93719
9
283
n.L.
IS S5 26.65
2.04076
61.41
•4-0 8 32.9
—2.94194
10
284
U.U.
IS 47 S9.99
2.04460
61.67
— 2 51 44 Ji
—2.94280
10
284
Ll.
13 7 45.S2
2.05100
62.15
— 5 46 39.3
—2.94000
11
285
Lu.
13 30 S7.37
2.05960
62.79
— 8 39 33.2
—2.93273
11
285
Ll.
13 53 41.S9
2.07067
63.65
—11 88 40.1
—2.92060
12
286
Lu.
14 17 34.14
2.08368
64.66
—14 IS 6X>
—2.90303
288 MOON CULMINATIONS.
WASHINGTON
MERIDIAN.
Mom So-
lar Due.
Side-
real
0M6.
Umb
and
Tnutfit.
Time.
Loft. rar. of
fcrl hoar
OfLoQ.
Sid. Time
Sr.mi pas
Meridian.
DeclloaUoQ.
Lof . Tar. of
C'aDecfor
1 hour of
Loo.
Naof
Star in
follow-
infOat.
d
h. IB. a.
a.
o 1 t
—16 47 44.3
Oct. 13
886
I.L.
14 42 13.76
2.09837
65.81
—8.87795
13
287
I. U.
15 7 46.55
2.11435
67.11
— 19 13 19.1
—8.84427
13
887
I.L.
15 34 17.88
2.13085
68.50
—21 26 23.9
-2.79932
14
288
I.U.
16 1 51.27
2.14743
69.89
—23 84 23.6
—2.73847
109
U
888
I. L.
16 30 27.64
2.16303
71.84
—25 4 38.5
—2.65560
110
15
889
I.U.
17 0 4.52
2.17745
72.52
—26 24 29.4
—2.53631
114
15
289
I.L.
17 30 35.92
2.18929
73.57
—27 21 26.9
—2.35008
115
16
290
I.C.
18 1 51.84
2.19816
74.40
—27 53 21.7
—1.97150
116
16
290
I.L.
18 S3 38.54
2.20350
74.88
—27 58 32.4
+1.63024
117
17
291
Lu.
19 5 40.25
2.80506
75.04
—27 S6 1.1
+2.26202
mj
17
291
I.L.
19 37 40.97
8.80300
74.84
—26 45 33.2
+2.50718
124
18
292
I.U.
20 9 25.23
8.19770
74.37
—25 27 42.3
+2.65889
131
19
292
I.L.
20 40 40.54
8.18974
73.66
—23 43 48.2
-•-2.76469
133
19
293
Lu.
21 11 18.18
8.18019
72.79
—21 35 46.6
-♦-2.84281
136 1
SO
293
I.L.
21 41 13.38
8.16961
71.86
—19 6 4.6
-(-2.90218
137
SO
294
Lu.
22 10 25.35
8.15918
70.94
—16 17 30.3
-1-2.94692
140 '
SI
294
Ll.
22 38 56.98
8.14944
70.11
—13 13 6.6
+2.98064
141
SI
295
Lu.
23 6 53.53
2.14126
69.40
— 9 56 5.0
-»-3X)0484
144 1
SS
295
Ll.
23 34 22.29
2.13498
68.86
— 6 29 45.1
-4-3.02090
146
8S
296
Lu.
0 I 31.69
8.13101
68.51
— 2 57 29.7
-4-3.02956
1
23
297
Ll.
0 28 30.93
8.18963
68.36
^- 0 37 17.5
-f^.03123
2
S3
297
Lu.
0 55 29.23
8.13069
68.43
H- 4 11 11.0
-4-3.02591
8,
S4
298
Ll.
1 22 35.54
8.13402
68.69
-♦- 7 40 46.5
-h3.01342
10
84
298
Lu.
1 49 58.15
2.13931
69.10
-hll 2 40.4
+2.99334
14
S5
299
ILL.
2 20 3.29
2.14594
69.72
-»-14 13 38.7
+2.96485
16'
25
299
ILu.
2 48 18.81
2.15369
70.35
-»-17 10 33.0
+2.92667
20
86
300
ILL.
3 17 5.61
2.16179
71.04
-»-19 50 28.5
+2.87649
21
86
300
n.u.
3 46 24.02
2.16926
71.71
+22 10 48.6
+2.81177
29
87
301
ILL.
4 16 10.63
2.17579
72.29
H-24 9 19.2
+2.72816
30 <
87
301
ILu.
4 46 19.11
2.18001
72.71
-»-25 44 15.7
+2.61662
33
1 88
302
ILL.
5 16 39.92
2.18163
72.89
H-26 54 27.5
+2.45946
35
88
302
ILu.
5 47 1.52
2.180.32
72.83
-+-27 39 23.5
+2JJ0799
40
89
303
ILL.
6 17 11.18
2.17591
72.49
-+-27 59 8.4
+1.56407
41
89
303
ILu.
6 46 56.32
2.16832
71.89
-k27 54 24.0
— 1.91922
*^
30
304
ILL.
7 16 5.76
2.15834
71.06
H-27 26 24.0
—2.29149
46'
30
304
ILu.
7 44 30.84
2.14626
70.07
+26 36 42.8
—2.47660
'49
31
305
ILL.
8 18 5.64
2.13257
68.95
+25 27 11.4
—2.595.33
51
31
305
ILu.
8 38 47.35
8.11803
67.79
+23 59 48.8
-2.67969
53
Nor. 1
306
ILL.
9 4 35.87
8.10339
66.61
+22 16 30.1
—2.74286
56
306
ILu.
9 89 33.60
8.08920
65.49
-♦-20 19 8.5
—2.79154
59
307
n.L.
9 53 44.66
8.07610
64.46
+18 9 31.8
—2.83029
61
307
U.U.
10 17 14.64
8.06438
63.54
+15 49 19JI
— 2.86a34
^ .
308
n.L.
10 40 9.95
8.05445
62.77
+13 80 0.6
—2.88473
68
308
U.U.
11 8 37.75
3.04684
62.17
+10 43 1.0
— 2.90424
74
309
ILL.
11 84 45^1
8.04173
61.74
+ 7 59 39.3
—2.91936
76
309
n.u.
11 46 41.98
8.03909
61.50
+ 5 11 13.0
—2.93084
79
310
ILL.
19 8 34XH
8.03905
6U6
+ 8 19 4.9
—2.93875
82
311
ILu.
12 30 30.13
8XM168
61.62
— 0 35 45.8
—2.94338
311
ILL.
12 52 3a78
8.04734
61.97
— 3 31 37.8
—2.94432
312
ILu.
IS 15 9.31
8X)5574
62.52
— 6 87 6.2
—2.94134
MOON CULMINATIONS. 289
WASHINGTON
MERIDIAN.
Mean So.
bvDate.
Side-
real
Date.
Limb
aiid
Tranait.
Apparent Right
Aflcension m
Time.
Ijng. var. of
C 'a A. R.
lur 1 hour
ofLon.
Sid. Time
Semi. poa.
Meridian.
DeclinatioD.
hag. var. of
C'aDeclbr
1 hour of
ofLon.
No. of
Star in
follow-
ing Gal.
d
h. m. B.
a.
O 1 II
Not. 7
312
ILL.
13 38 9.65
2.066.30
63.29
— 9 20 32,4
—2.93405
8
313
II. u.
14 1 47.51
2.07901
64.24
—12 10 6.4
—2.92151
8
313
n. L.
14 26 11.24
2.09377
65.35
—14 53 47.5
—2.90270
9
314
II. U.
14 51 28.47
2.11000
66.62
—17 29 0.5
—2.87624
9
314
I.L.
15 15 29.32
2.12687
67.99
—19 53 30.2
— 2.83943
10
315
I.U.
15 42 47.18
2.14382
69.42
—22 4 27.8
—2.78958
10
315
I.L.
16 11 11.31
2.16056
70.84
—23 58 59.4
—2.72161
11
316
I.U.
16 40 39.79
2.17590
72.16
—25 34 9.8
—2.62605
11
316
I.L.
17 11 7.20
2.18893
73.34
—26 47 11.8
—2.48497
12
317
lu.
17 42 23.75
2.19887
74.24
—27 85 37.1
—2.24864
12
317
I.L.
18 14 15.56
2.20503
74.83
—27 57 29.1
— I.608I3
13
318
I.U.
18 46 25.50
2.20713
75.07
—27 51 35.2
+1.99982
121
13
318
I. L.
19 18 35.89
2.20519
74.92
-27 17 32.7
-H2.38033
122
14
319
Lu.
19 50 29.17
2.199.54
7445
—26 15 52.8
+2.57459
125
14
319
Ll.
20 21 50.90
2.19085
73.69
—24 47 54.0
+2.70129
127
15
320
Lu.
20 52 30.48
2.17997
72.77
—22 55 34.2
+2.79113
134
15
320
Ll.
21 22 21.85
2.16793
71.74
—20 41 18.3
+2.85833
135
16
321
Lu.
21 51 23.45
2.15.'>65
70.70
—18 7 51.1
+2.90879
139
16
321
Ll.
22 19 37.26
2.14392
69.71
—15 18 4.1
+2.94680
140
17
322
I.V.
22 47 843
2.13364
68.87
—12 14 54.8
H-2.97516
144
18
322
Ll.
23 14 4.41
2.12532
68.18
— 9 1 16.8
+2.99530
146
18
323
Lu.
23 40 33.89
2.11939
67.68
— 5 40 5.2
+3.00864
148
19
323
Ll.
0 6 46.75
2.11619
67.40
— 2 14 11.9
+3.01555
149
19
324
Lu.
0 32 53.01
2.11564
67.34
-h 1 13 31.3
+3.01634
6
20
325
Ll.
0 59 2.30
2.11785
67.49
-4- 4 40 11.2
+3.01105
7
20
325
Lu.
1 25 24.30
2.12263
67.86
H- 8 2 52.4
+2.99946
8
21
326
Ll.
1 52 7.94
2.12961
68.40
+11 18 37.2
+2.98057
10
21
326
Lu.
2 19 21.52
2.13842
69.08
-hl4 24 26.5
+2.95387
19
22
327
Ll.
2 i'r 10.28
2.14817
69.87
+17 17 20.6
+2.91759
20
22
327
Lu.
3 15 38.10
2.15833
70.71
+19 54 24.8
+2.86978
26
23
!m
n.L.
3 47 8.57
2.16829
71.51
+22 12 60.7
+2.80708
27
23
328
ILu.
4 16 54.23
2.17655
72.20
+24 10 11.2
+2.72458
32
24
329
ILL.
4 47 9.72
2.18264
72.75
+25 44 20.9
+2.61285
33
24
329
ILu.
5 17 44.83
2.18583
73.05
+26 53 48.5
+245309
36
25
330
ILL.
5 48 26.32
2.18563
73.05
+27 37 43.5
+2.19058
37
25
330
n. u.
6 18 59Ji8
2.18190
72.78
+27 55 56.4
+1.44133
41
26
331
n. L.
6 49 9.91
2.17476
72.23
+27 49 3.5
—1.97990
42
26
331
ILu.
7 18 44.12
2.16457
71.37
+27 18 17.0
—2.32431
47
27
332
ILL.
7 47 31.70
2.15169
70.33
+26 25 17.6
—2.50132
48
27
332
ILu.
8 15 25.70
2.13719
69.16
+25 12 8.8
—2.61551
52
28
333
ILL.
8 42 22.47
2.12153
67.95
•+23 40 59.6
—2.69850
55
28
333
ILu.
9 8 2L56
2.10573
66.69
+21 54 1.3
—2.75652
57
29
334
ILL
9 33 25.42
2.09045
65.51
+19 53 20.1
—2.80230
59
29
334
ILu.
9 57 3847
2.07627
64.44
+17 40 52.2
—2.83808
62
30
335
U.L.
10 21 7.10
2.06360
63.47
+15 18 23.1
—2.86627
64
30
335
n.u.
10 43 58.74
2.0.5281
62.68
+12 47 28.7
—2.88824
71
Dec. 1
336
ILL.
11 6 20.80
2.04457
6205
+10 9 34.9
—2.90567
72
1
336
ILu.
11 28 21 21
2.03887
61.62
+ 7 26 0.6
—2.91917
77
2
337
ILL.
11 50 8.66
2.03613
61.39
+ 4 37 57.1
—2.92916
78
3
337
ILu.
12 U 52.59
2.03644
61.37
+ 1 46 35.9
—2.93599
82
37
290 MOON CULMINATIONS.
WASHINGTON
MERIDIAN.
MeanSo.
IwOate.
Skfe-
ml
Dm«.
Limb
and
TraoeiU
Time.
Lof . Tar. of
O A. R.
fori hour
ofLon
Sld.T1ma
Semi paa
DadinatioQ.
Log. Tar. of
(C ^ Declbr
1 hour of
Loo.
No. of
Siarin
follow
IngCat
d
h. m. a.
a.
O 1 M
Dec 5
338
JLu
12 S3 41.81
2.03956
61.54
— 1 6 51.3
—2.93978
83
339
II. U.
12 55 44.76
2.04543
61.97
— 4 1 9.8
—2.94019
88
339
ILL.
13 18 10.57
2.05448
62.62
— 6 54 56.3
—2.93711
89
340
ILu.
13 41 9M
2.06635
63.45
— 9 46 40.3
—2.92962
94
340
n.L.
14 4 49.73
2.08068
64.48
—12 34 35.8
. —2.91731
95
341
n.u.
14 29 21.58
2X)9670
65.71
—15 16 39.3
—2.89863
341
ILL.
14 54 52.92
2.11512
67.07
—17 50 33.1
—2.87196
342
ILu.
15 21 30.93
2.13389
68.53
—20 13 38.1
—2.83482
342
ILL.
15 49 20.53
2.15307
70.12
—22 22 56.8
-2.78314
343
ILu.
16 18 23.90
2.17125
71.65
—24 15 21.9
—2.71130
343
n.L.
16 48 39.07
2.18737
73.08
—25 47 35.0
—2.60760
344
Lu.
17 17 30.43
2.20102
74.29
—26 56 28.5
—2.44923
344
Ll.
17 49 40.92
2.21117
75.21
—27 89 17.3
—2.16127
10
345
Lu.
18 22 27.27
2.21691
75.76
—27 53 544
—9.49938
10
345
Ll.
18 55 29.17
2.21794
75.88
—27 39 9.4
+2.16973
11
346
Lu.
19 28 25.22
2.21437
75.58
—26 54 55.0
+2.46810
11
346
Ll.
20 0 55.18
2.20665
74.91
—25 42 7.1
+2.63498
12
347
Lu.
20 32 43.42
2.19567
73.98
—24 2 4lJi
+2.74784
130
12
347
Ll.
21 3 38.76
2.18248
72.86
—21 59 13.0
+2.82767
131
13
348
Lu.
21 33 35.72
2.16812
71.66
—19 34 47.0
+2.88603
136
13
348
Ll.
22 2 83.86
2.15373
70.47
—16 52 40.3
+2.92894
137
14
349
Lu.
22 30 37.15
2.14037
69.37
—13 56 12..
+2.96042
142
14
349
Ll.
22 57 51.70
2.12853
68.42
—10 48 35.5
+2.98258
143
15
350
Lu.
23 24 25.89
2.11871
67.66
— 7 32 54.4
-1-2.99716
148
15
350
Ll.
23 50 29.62
2.11177
67.12
— 4 12 2.1
-♦-3.00551
149
16
351
Lu.
0 16 13.98
2.10780
66.80
— 0 48 42.4
+3.00790
1
17
352
Ll.
0 41 49.78
2.10688
66.72
+ 2 34 27.3
-1-3.00471
2
17
352
Lu.
1 7 27.34
2.10891
66.85
-h 5 54 51.7
+2.99607
81
18
353
Ll.
1 33 16.84
2.11357
67.22
-f 9 10 0.3
+2.98137
10
18
353
Lu.
1 59 27.55
2.12062
67.76
-hl2 17 17.1
+2.96046
16,
j
19
354
Ll.
2 26 7.58
2.12957
68.44
-hl5 14 19.4
+2.93186
1
17
1 19
354
Lu.
2 53 23.34
2.13965
69.25
+17 58 22.6
+2.89412
21 1
20
355
Ll.
3 21 \9X>4
2.15035
70.16
+20 26 55.3
+2.84485
23!
20
355
Lu.
3 49 56.23
2.16068
70.94
+22 37 27.5
+2.78077
28
21
356
Ll.
4 19 12.70
2.16989
71.69
+24 27 40.5
+2.69618
30
21
356
Lu.
4 49 2.83
2.17703
72.27
+25 55 32.6
+2 58042
35
22
357
Ll.
5 19 17.04
2.18141
72.64
+26 59 30.3
+241181
37
22
357
Lu.
5 49 42.90
2.18253
72.72
+27 38 34.2
+2.12129
40
23
358
ILL.
6 22 30.80
2.17989
72.47
+27 52 25.7
-H).83623
41
23
358
ILu.
6 52 34.77
2.17366
71.95
+27 41 28.8
—2.06154
45
24
359
ILl.
7 22 6.25
2.16417
71.17
+27 6 47.4
— 2J56220
1
47
24
359
ILu.
7 50 54.14
2.15211
70.17
+26 9 56Ji
—2.52696
50
25
360
ILL.
8 18 50.15
2.13784
69.03
+24 52 55.7
—2.63528
5^ <
25
360
n.u.
8 45 49.54
2.12232
67.81
+23 17 56J(
—2.71275
54
26
361
ILL.
9 11 51.56
2.10648
66.54
+21 27 \bX>
—2.77016
56
1
26
361
ILu.
9 36 57.35
2.09074
65.37
+19 23 2.1
—2.81369
<o!
27
362
ILL.
10 1 11.41
2.07612
64 J7
+17 7 UJi
—2.84740
61
27
362
ILu.
10 24 39.42
2.06292
63.%
+14 42 13.4
—2.87320
Ml
28
363
n.L.
10 47 28.20
2.05172
62.50
+12 9 13.9
—2.89306
69'
28
363
ILu.
11 9 45.77
2.04273
61.86
+ 9 29 56.1
—2.90837
74
.
_
J
MOON CULMINATIONS. 291
WASHINGTON MERIDIAN.
Mean So-
lar Date.
Dec. 29
29
30
30
31
31
Side-
real
d
364
364
365
366
366
367
Limb
and
Traoait.
II. L.
II. U.
II. L.
II. U.
II. L.
Hu.
TIfQa.
Log. var. of
fori hour
ofLon.
Sid. Time
Serni.paa.
MaridW.
h. m. a.
11 31 38.88
11 53 18.82
12 14 52.80
12 36 29.77
12 58 18.93
13 20 30.29
2X)3630
2.03322
2X)3264
2.03528
2.04100
2.04937
61.41
61.16
61.14
61.32
61.72
62.34
Declination.
6 45 43.3
3 57 50.3
1 7 28.6
1 44 14.2
4 36 6.5
7 26 52.8
Log. var. of
(C '• Dec. for
1 hour of
ofLon.
~2.91968
—2.92765
—2.93259
—2.93448
—2.93335
—2.92870
No. of
Star in
follow-
ing Oau
76
80
82
83
88
89
292 MOON-CULMINATING STARS.
lsid.I>tt«,
Name and
Sd Date.
Name and
SId. Date.
Name and
Sid. Date,
Name and
and No.
MdMag.
ofSur.
Right Av-eiMion
of Star.
and No.
and Mag
of Star.
Right AsT^naion
of Star.
and No.
and Mag.
of Star.
Right A-ceiiaioQ
of Star.
and No.
aiHl Mag.
of Star.
Right A»centioQ
of Star.
No. 1.
12 Od.
No. 6.
a Piscinm.
No 10.
n Piscium.
No. 16.
59CeiL
6 Mag.
oh. 22«-
4 Mag.
0>>-55-
5 Mag.
lh.29--
4Mag.
jh. 20-'
r
s
d.
■.
d.
■.
d.
••
186
39.38
269
28.16
326
28.17
24
26.75 1
187
39.42
270
28.17
352
28.04
25
26.73 i
241
40.85
324
28.31
353
28.03
161
26.88
242
296
297
40.86
41.31
41J)1
325
Dec.=
28.31
70 6'
Dec =
11^24'
243
244
298
29.36 '
29.38
30.40 ,
35\
40.96
No. 11.
t Pisciam.
299
30.41 1
3.'i2
Dec.=
40.95
—4^46'
No. 7.
132
133
e Pifciam.
Ih-o-.
5 Mag.
d.
lh.33-
353
354
30.54
30.54
5342
53.45
23
24
160
52.53
52.52
53.09
Dec =
7«48'
No. 2.
13 Ceti.
6 Mag.
d
oh. 27m.
187
55.02
161
53.11
No. 17.
31 Arietta.
a.
188
55 05
242
55.35
51 Mag.
2li.28«.
241
49.67
214
55.86
243
55.58
d^
a
242
49.68
215
55.89
Dec.=
4045'
271
46.52
296
50.15
269
57.01
272
46.54
297
50.16
270
57.02
353
47.15
351
49.82
324
57.19
No. 12.
0 Pisciam.
354
47.14
352
49.81
325
67.19
5 Mag.
ih. 37m.
Decz=
IP 49'
Dcc,=
— 4<>24'
Dec =
4^63'
d*
188
189
45';i4
45.18
No. 18.
B. A. C. 845,
No. 3.
B.A. C. 221.
No. 8.
H Piscinm.
270
47.29
♦ My.
189
190
2»»'37«-
6 Mag.
1.59
0»»-40»-
46.68
44 Mag.
n.
23
l»»-22-
34.60
271
Dcc.=
47.31
8*26'
6*^91
6.94
160
46.78
24
34.60
216
7.77
Dec.=
4032'
160
161
35.30
35.33
No. 13.
6 My.
188
54 Ceti.
l»»-43".
217
271
7.80
9.25
215
37.02
272
9.27
No. 4.
S Pbciam.
216
297
298
37.05
38.50
38.52
11*23
Dec =
9*30'
5 Mag.
d.
22
Ok. 41-
189
11.27
a.
8.68
352
38.39
Dec =3
10^19'
No. 19.
TT Arietif.
23
8.67
353
38.38
5 Mag.
2^41"-
Dec =
6^48'
Dec =
5*^24'
No. 14.
51 Ceti.
a.
5My.
24
25
2»^5-
18.48
18.46
216
217
326
13.62
13.65
15.88
No. 5.
20 Ceti
No. 9.
17 Pisciam.
5 Mag.
0'>-45«'
4 Mag.
lb. 23-.
327
15.89
d
a.
d.
242
243
46*11
46.14
51
18.12
Dec =
16*52'
159
160
36.16
36.19
52
243
18.11
21.24
Dec —
— 1<>56'
325
326
46.93
46.93
244
21.26
No. 20.
a Arietia.
I>ec =
14036'
298
299
22.21
22.22
5 My
2^50-
a
No. 6.
a Pifdnm.
Dec =
S^'IO'
244
57.73 1
4M^.
22
23
132
0^55«-
No. 10.
n Pifciam.
245
299
57.75 1
58.96 ,
24.36
24.35
24.57
5 Mag.
d.
215
216
1^29-
26.58
26.60
No. 15.
51 Mag.
lArietis.
2^-17-.
300
326
327
58.98 1
69S4 1
59.25
133
187
24.60
26.19
270
271
27.84
27.86
d.
51
2.10
Dec =
20*45'
188
26.22
297
28.12
52
2.08
214
27.03
298
28.13
161
2.63
215
27.06
325
28.17
Dec =
9^57'
MOON-CULMINATING STARS. 293
I
Sid DiU«,
and No.
and Mac.
! of Sur.
Name and
Right AacDiuion
ofSiar.
Sd Dale,
aodNo.
and Max
of Sur.
Name and
EUfht Atirenaion
of Star.
Sid. Date,
and No.
and Mag.
of Sur.
Name and
(Ufht A^ceniiion
of .Sur.
Sid. Date,
aodNo.
and Mag.
of Star.
Name and
Right Ascenaion
of Star.
No. 21.
4 Mag.
d.
25
26
62
M
189
190
• 217
218
244
245
299
300
354
355
Dec.=
a Arietif.
3H.3-
20.33
20.32
19.92
19.91
20.88
20.91
21.80
21.83
22.66
22.69
23.93
23.95
24.31
24.31
19010'
No. 26.
3 Mag.
d.
217
218
272
273
327
328
Dcc =
, Taori.
3»»-38*-
53.23
63.26
54 99
55.02
56.05
56.07
230 39'
No. 30.
44 Mag.
d.
355
356
Dec =
f Taori.
4h.20'»-
13.28
13.29
18' 51'
No. 35.
83
219
220
246
247
301
302
356
357
Dec =
(1 Taori.
5^1701.
a.
7.32
8.27
8.31
9.23
9.26
11.04
11.07
12.19
12.20
28° 29'
No. 31.
iMag.
d.
54
55
81
82
218
219
273
274
Dec.=
a Taori.
4h. 27-.
36.10
36.09
35.67
35.66
37.00
87.03
38.70
38.73
16*» 13'
No. 27.
5M^.
53
54
190
191
327
328
Dec.=
Al Taori.
3»»-56«-
7.25
7.23
7.72
7.75
11.46
11.48
21° 41'
No. 36.
5 Mag.
d.
329
330
Dec.=
0 Taori.
5I1. IS""-
59.48
59.50
21° 49'
No. 22.
5 Mag.
d
i 52
53
Dec.=
C Arietis.
gh. (Oi.
33^62
33.60
20^30'
No. 82.
4 Mag.
d.
328
829
Dec.=
1 AorigeB.
4I1. 47m.
37.52
87.54
32° 56'
No. 37.
3iMag.
d.
1
55
56
82
83
110
111
219
220
274
275
829
330
356
357
Dec.=
C Taori.
5h. 28»-
59*^8
59.02
59.01
58.55
58.54
58.15
58.14
59.45
59.48
61.20
61.23
62.74
62.77
63.18
63.19
21° 3'
No. 28.
4 Mag.
d.
26
27
355
356
Dec.=
ai Taori.
4b. i4«.
34.68
34.67
38.56
38.56
17° 12'
No. 23.
5 Mag.
25
26
272
273
354
355
Dec.=:
tI Arietif.
3»»-12"-
51.39
51.37
54>40
5442
55.40
55.40
20^37'
No. 33.
4iMag.
d.
27
28
110
246
247
301
302
328
329
Dec. =t
1 Taori.
411.5401.
26*20
26.19
24.99
2748
27.51
29.15
29.18
29.75
29.77
21° 23'
No. 29.
44 Mag.
d.
245
246
300
301
Dec.=
aa Taori.
4b. 15m.
46*20
46.23
47.72
47.74
17° 6'
No. 24.
6 Mag.
81
Dec.=
9 Taori.
3h.28"-
25.64
22^44'
No. 38.
41 Mag.
a.
28
29
110
111
274
275
Dec =
136 Taori.
5I1. 44m.
■.
13.46
13.45
12.20
12.19
15.25
15.28
27° 84'
No. 80.
3iMag.
d.
26
27
54
55
81
82
218
219
245
246
273
274
300
301
f Taori.
4^20'»-
s.
9.88
9;!7
8.97
8.96
8.53
8.51
10.07
10.10
10.94
10.97
11.79
11.81
12.49
12.51
No. 34.
51 Mag.
d.
110
Dec. =
/Taori.
4h. 59D.
12.84
200 13'
No. 25.
41 Mag.
d
81
Dec.»
17 Taori.
3h. 3gra.
15.40
23^39'
No. 35.
2 Mag.
d.
1
27
28
55
56
82
/f Taori.
5'»-17--
8.1%
8.17
8.16
7.80
7.78
7.34
No. 26.
53
54
190
17 Taori
3>»-38--
RLSl
51.79
52.34
52.37
No. 39.
28
29
Dec. =
ar Aoriga.
6h-6-
8.95
8.95
29° 33'
294 MOON-CULMINATING STARS.
[ad.i^f,
Name and
SdDate,
Name and
Sid. Date,
Name and
Sid. Date,
NamaaDd
and No.
«Hl Mag.
Right A*»cenaioii
ofSur.
and No.
and Mag
Right A»rension
of Star.
and No.
and Mag.
Right Aiicension
of Star.
and No.
and Mag.
Right Aacenalon
of Star.
ofSuir.
of Star.
of Star.
of Star.
No. 40.
i^Qeminoniin.
No. 44.
CQ«mmonim.
No. 48.
/9Q«minonim.
No. 52.
^Cancri.
4 Mag.
fih-em.
4 Mag.
6»»-55--
li Mag.
7h.3e«.
54 Mag.
8^23«-
d.
a.
d.
a.
d.
■.
d.
■.
1
8.04
29
31.22
30
27.21
113
19.68
2
8.05
30
31.22
31
27.22
114
19.66
247
8.75
111
30.17
67
27.12
169
19.18
248
8.78
112
30.15
58
27.11
250
20.14
302
10.54
248
31.48
85
26.79
332
22.68
303
10.55
249
31.51
86
26.78
333
22.71
357
358
11.87
11.88
Dec =
20<» 47'
112
113
26.31
26.30
Dec =
18«>35'
Dec.=
22033/
No. 45.
34 Mag.
d.
jGeminomm.
7b. n»-
a.
249
250
276
277
331
332
27.19
27.72
28.04
28.07
29.94
29.97
No. 53.
44 Mag.
Y Cancri.
8^34--
a.
No. 41.
^G^eminonun.
3 Mag.
d.
611.14m.
a.
2
3
28.25
28.28
4
5
53.92
53.94
1
11.86
84
28.01
Dec =
28' 22'
31
54.35
2
83
11.87
11.30
85
140
28.00
27.20
32
58
54.36
54.40
84
11.28
248
28.64
No. 49.
ip Geminor.
59
54.39
220
11.68
249
28.67
5 Mag.
d.
7h.44-.
86
54.11
247
12.56
303
30.42
a.
87
54.10
248
12.59
304
30.45
3
37.72
113
63.71
276
1344
358
32.01
4
37.74
114
63.69
276
13.47
359
32.03
140
36.77
169
63.17
802
303
330
14.31
14.34
15.12
Dec.=
22<>15'
141
304
305
36.76
39.78
39.82
250
277
278
64.06
54.78
54.81
331
15.14
No. 46.
1 Geminonim.
Dec.t=z
27«8'
305
55.69
357
358
l5Ji9
15.70
4 Mag.
d.
7h-l6--
a.
306
332
333
55.72
56.63
56.66
No. 50.
6Cancri.
Dect-
22^35'
2
3
43.66
43.68
5iMag.
7h.54«.
Doc.«
21*69'
No. 42.
4 Mag.
rQeminonun.
6^20^
84
85
140
43.35
43.33
42.54
359
360
Decs
40.76
40.79
28<*12'
No. 54.
^Cancri.
d!^
56
57
21.60
21.58
303
304
45.87
45.91
6M^.
86
8»»-46»-
68.91
No. 51.
^* Cancri.
83
21.16
Dec.<«
a8<*5'
♦ M^.
87
360
58.89
62.32
84
21.14
220
330
331
21.57
24.96
24.97
Na47.
lIMjg.
a2 Ctominor.
7k. 25"-
8
4
58
59
43.47
43.49
43.79
43.78
361
D€C-=
62.35
28»29'
Dec.^
20^18'
1?
2l'i3
21.58
85
86
43.45
43v43
No. 55.
y Cancri.
No. 43.
f Geminomm
57
58
21.45
21.42
140
141
42.64
42.63
"«?•
8^54-
a.
3 Mag.
6^.35--
112
20.52
277
44.50
4
15.80
(i
a.
113
20.51
278
44.53
5
15.83
29
1.39
249
21.56
304
45.42
141
15.37
30
1.39
250
21.59
305
45.46
142
16.37
56
57
111
1.16
1.15
276
277
331
22.46
22.50
24.42
359
360
47.22
47.25
25057'
Dec»
25*>1'
112
0.23
332
24.45
No. 56.
eCancri.
9^1-
275
276
2.71
2.75
358
359
25.22
25.24
No. 52.
^Cancri.
Dec«
25' 16*
Dec. =
820 12'
54 Mag
d.
8^23"-
a.
d.
59
2^11
31
2037
60
2.10 1
1
32
20.38
141
...3 J
MOON-CULMINATING STARS. 295
SkLData,
Name and
Sid. Date.
Name and
Sid. Date,
Name and
Sid. Data,
Name and
uid No.
andMa^.
of Star.
Ri^t AsMiiaion
oTSUr.
and No.
and Mag
of Star.
Right Aacenrion
ofSiar.
and No.
and Mag.
of Sur.
Right Ancenaion
of^>lar.
and No.
and Mag.
ofSur.
Right Aaceoaion
of Star.
No. 56.
^Cancri.
No. 60.
t Leonis.
No 65.
42 Leonis.
No. 71.
c Leonis.
51 Mag.
9I1.I-.
51 Mag.
911.50m.
6 Mag.
10»>-14*-
51 Mag.
IQb. 53«.
d.
a.
d.
•.
d.
B.
dT
a.
142
1.12
361
28.67
6
2.43
336
16.01
278
2.30
362
28.71
7
2.46
279
305
306
360
2.33
3.15
3.19
5.03
Dec =
130 8'
Deo.=
15« 42'
Dec. =
6053'
No. 72.
X Leonis.
No. 61.
17 Leonis.
No. 66.
45 Leonis.
361
Dec.=:
5.06
22038'
3iMag.
d.
9h. 5901.
8.
6 Mag.
d.
IQh. 2o«»-
44 Mag.
d.
61
10"»- 57"-
a.
33.26
5
6
25.60
25.63
307
308
0.79
0.82
62
116
33.27
33.14
No. 57.
iLeonif.
142
143
25.77
25.75
Dec.=
10030'
117
171
33.13
32.61
41 Mag.
9b. 23"-
306
27.04
172
32.60
dT
s.
307
27.07
No. 67.
B. A. C. 3579.
199
32.43
32
33
27.51
27.52
361
362
28.91
28.94
6 Mag.
d.
143
lOb. 21--
335
336
34.35
34.38
59
60
27.67
27.67
Dec=.
170 28'
3.'95
Dec =
8° 7'
87
88
27.49
27.48
144
Dec.=
3.93
1505'
No. 62,
a Leonis.
114
115
27.13
27.12
UMag.
l()b.o«.
No. 73.
^ Leonis.
llh-e"-
37'.'88
37.92
38.61
169
170
278
279
26.53
26.52
27.69
27.72
d.
33
34
115
116
39.62
39.63
39.56
39.55
No. 68.
4 Mag.
d.
6
Q Leonis.
10">- 25'»-
10.65
3 Mag.
d.
7
8
34
333
334
29.90
29.54
170
171
38.95
38.94
7
88
10.68
11.57
35
116
38.63
38.94
Dec.=
230 86'
279
334
335
Dec=i
39.67
41.31
41.34
12^40'
89
143
144
307
308
11.57
11.03
11.01
12.00
12.03
117
Dcc.=
38.93
I60 13'
No. 58.
9LeoDi8.
6M^.
9^ 39"-
8.
362
363
13.81
13.85
No. 74.
4 Mag.
a Leonis.
llh. 1301.
No. 63.
34 Leonis.
114
32.34
a.
Dec =
1003'
d.
8.
115
32.33
6 Mag.
d.
89
90
40.70
40.70
Dec.=
250 19'
60
51.41
No. 69.
37 Sextantis.
144
40.31
61
51.42
1404'
6Mag.
d.
IQh. ggm.
8.
- 145
171
40.30
40.05
No. 59.
3 Mag.
f Leonis.
9»»-37'»-
362
363
35.79 .
35.a3
172
308
309
40.04
40.76
40.78
No. 64.
Y Leonis.
5
37.26
2M^.
lOh. nm.
Dec. =
70 8'
363
364
42.54
42.57
6049'
6
32
37.29
37.87
33
34
59.39
59.41
No. 70.
/Leonis.
Dec.=
33
37.89
60
59.67
6 Mag.
d
10«». 41--
8.
87
37.99
61
59!68
88
37.98
88
59.61
61
39.03
No. 75.
1 Leonis.
142
37.27
89
59.60
62
39.03
4M5,.
11 h. 1510.
143
37.25
115
59.33
Dec =
lio 19'
a.
169
170
36.97
116
59.32
7
21.54
36.96
170
58.73
8
21. .^7
306
38.82
171
58.72
No. 71.
e Jietonls,
34
22.27
307
38.85
279
59.40
35
22.30
333
39.77
334
61.09
54 Mag.
10^ 53in.
62
22.70
334
39.80
335
61.12
d.
199
a.
14.02
63
22.71
Dec.=s
24026'
Dec=s
20034'
335
15.98
Dec =
11020'
296 MOON-CULMINATING STARS.
Sid. Date,
and No.
and Mvf.
of Star.
No. 76.
4 Mag.
d.
62
63
89
90
308
309
363
364
Dec.=
No. 77.
41 Mag.
d.
35
36
117
118
144
145
172
173
199
200
336
337
Dcc.=
No. 78.
3jMag.
35
36
90
91
117
118
172
173
199
200
336
337
I
Na79.
54 Mag.
309
Dec. =
Name and
Right Asconaion
ofSur.
T Leotiis.
11»»*20^
29.86
29.87
29.96
29.96
29.98
30.01
81.74
31.77
3039'
V Virginit.
lib. 33m.
a.
25.08
25.10
25.62
25.61
25.40
25.39
25.14
25.13
24.92
24.91
26.42
26.46
7020/
/» Virginis.
ll'»-43"-
a.
9.15
9.17
9.79
9.79
9.72
971
9.26
9.25
9.04
9.03
10.48
10.51
2^35'
b VirginU.
11*»- 52"-
32.39
4^28'
No. 80.
4iMag
d
• VirginJa.
lib. 57«.
49.IC
49.19
Sd. Date,
and No.
and Mag.
of Star.
Na80.
41 Mag.
d.
90
91
145
146
364
865
D«c =
No. 81.
6 Mae.
63
64
200
201
Dec =
No. 82.
34 Mag.
d.
8
9
63
64
118
119
145
146
200
201
309
337
338
364
365
Dec. =
No. 83.
4 Mag.
d.
• 9
10
36
37
91
92
118
119
173
174
228
229
337
338
365
366
Dec. ■=
Name and
Right AiKenaion
of Star.
• Virgtnb.
U^ 57".
50.67
50.67
50.43
50.42
52.18
52.21
9032'
10 Virginis.
I2h. 2"^'
16.52
16.53
16.04
16.03
2^43'
ij Virginia.
12*»- 12"-
8.
28.90
28.93
30.24
30.25
30.47
30.47
30J51
30.31
29.83
29.83
30.21
30.99
31.02
31.90
31.93
0^8'
Y Viiginii
12*»- 34"-
18.44
18.47
19.25
19.28
20.13
20.13
20.17
20.17
19.84
19.83
19.36
19.35
20.51
20.54
21.44
21.47
— 00*39 '
Sid. Date,
and No.
and Mag.
of Star.
No. 84.
6 Mag.
173
174
Dec =
No. 85.
6 Mag.
36
37
Dec «=
No. 86.
5 Mag.
d.
201
202
Dec. =
No. 87.
3 Mag.
9
10
91
92
146
147
228
229
Decss
No. 88.
44 Mag.
64
65
119
120
146
147
174
175
201
202
338
339
365
366
Decs
No. 89.
10
NanMand
Right Aaceoaion
of Star.
35 Virginia.
\2^4ffm-
29.52
29.51
4® 22'
37 Virginia.
12^ 44"-
14.56
14.59
V Viiginis.
12h. 4e».
49,71
49.70
— 8P4y
d Vii^nif.
12^ 48"-
17*^1
17.54
19.29
19..30
1928
19.27
18.57
18.56
4011'
^ Virginii.
27.60
27.62
28.09
28.09
28.02
28.02
27.83
27.82
27.58
27.57
28 23
28.27
29.12
29.15
—4046'
• Virginia.
13*»- XT'
32*78
SidDaU,
and No.
and Mag.
of Star.
No. 89.
11
37
38
64
65
92
93
119
120
174
175
229
230
338
339
366
Dec =
No. 90.
4 Mag.
d.
10
11
37
38
M
93
229
230
366
Dec. sr
No. 91.
64 Mag.
d.
119
118
202
203
Dec. =
No. 92.
6 Mag.
117
118
202
203
Dcc =
No. 93.
6 Mag.
d.
65
66
D€C =
Name and
Right Aaceaaloa
of Star.
a Virginia.
13*»-17"-
a.
32.81
33.64
33.66
34J31
34.33
34.75
34.76
34.94
34.94
34.72
84.71
34.13
34.12
34.94
34.99
35.84
— 10«> 2V
C Virginia.
13^27*
ifao
17.83
18.66
18.69
19.75
19.77
19.23
19.22
20 81
OP 9'
m Virginia.
13^34"»-
174
1.74
1.33
1.33
— r»58'
86 Virginia.
19^ 38«-
1449
14.49
14.09
14.07
—11^42'
94 Virginia.
13*»-58*-
38.07
38 09
—8*12'
MOON-CULMINATING STARS. 297
Sid. Data,
and No.
aiMlMa«.
of Star.
Name and
Right AKeiMion
of Star.
Sa. Date,
and No.
andMa«.
of Star.
Name ai)d
Right Adcension
of Star.
Sid. Date,
and No.
andMitg.
of Star.
Nanneand
Right A^ceiwion
of Star.
Sid. Date,
and No.
and Ma«.
of Star.
Name and
Right Aacensioa
of Star.
No. 94.
11
12
38
39
65
66
93
94
120
121
175
176
230
231
258
339
Dec.=
ar Virginis.
14h. 501.
9.01
9.05
9.90
9.93
10.64
10.66
11.17
11.18
11.45
11.46
11.43
11.43
10.87
10.86
10.58
11.26
— 9<» 36'
No. 97.
2 J Mag.
d.
176
177
203
204
258
259
Dec.=
a* Libras.
14b. 4201.
.^3.49
53.49
53.27
53.25
52.52
52.51
— 15<» 26'
No. 102.
44 Mag.
d.
150
Dec =
y Libras.
15h. 27m.
27.03
—14' 18'
No. 108.
54 Mag.
d.
259
260
Dec.=
B.A.C. 5830.
15^- 57"-
■.
2.34
2.33
—19° 24'
No. 103.
5 Mag.
d.
204
205
Dec =
X Librie.
15»'- SS"-
37*75
37.74
—190 12'
No. 109.
4 Mag.
d.
232
233
288
Dec =
a Scorpii.
16h. i2«n.
24^63
24.62
23.81
—250 14'
No. 98.
5 Map.
203
204
258
259
S« Libra.
I4h. 48m.
55.81
55.80
55.13
55.12
—10° 49'
No. 104.
41 Mag.
d.
12
13
67
68
Dec.=
1] Libra.
15"»'35'"-
53.83
53.86
55.61
55.62
—150 12'
No. 110.
UMag.
d.
68
69
95
96
150
151
20^
206
232
233
260
261
288
Dec.=r
a Scorpii.
jgh. 20"*
•..
31.41
31.44
32.25
32.28
33.44
33.45
33.54
33..W
33.20
33.19
32.71
32.70
32.34
— 26=» 6'
No. 95.
11
12
38
39
93
94
120
121
148
149
175
176
230
231
258
339
Dec=:
a Virginis.
14h.lini.
15.15
15.18
16.05
16.08
17.35
17.37
17.66
17.66
17.76
17.78
17.67
17.66
17X)9
17.08
16.79
17.43
— 12^42'
No. 99.
3i Mag.
d.
94
95
121
122
231
232
Dec==
20 Libra.
U*"- 55'"-
36.68
36.70
37.13
37.14
36.74
36.73
—24° 43'
No. 105.
4 Mag.
d
67
68
204
205
Dcc.=
X Libra.
15h. 44m.
a.
55.72
55.76
57.36
57.35
—19044'
No. 100.
5 Mag.
d.
39
40
176
177
Dec =
t^ Libra.
U^' 58"»-
82.46
32.49
34.60
34.60
—15° 41'
No. 111.
34 Mag.
d.
68
69
96
97
150
151
205
206
260
261
Dec =
T Scorpii.
16»»- 26--
51.76
51.80
52.62
52.65
53.81
53.82
53.95
53.94
53.15
53.13
—27° 55'
No. 106.
3 Mag.
d.
40
41
122
123
177
178
259
260
Dec=:
a Scorpii.
15h- SI™-
- 8.
45.26
45.29
47.52
47.54
48.02
48.02
47.12
47.10
-22» 12'
No. 96.
6 Mag.
66
67
Dcc =
5 Libra.
14h. 37a..
58.91
58.94
—14° 51'
No. 101.
4 Mag.
d.
12
13
94
95
149
150
231
232
Dec.=
C» Libne.
IS**- 20'».
8.
3.71
3.74
6.17
6.19
6.95
6.95
6.48
6.46
— 16<» 12'
No. 97.
21 Mag.
d.
39
40
66
67
121
122
148
149
a« Libra.
U^ 42"-
51.52
51.55
52.32
52.35
53.35
53.36
53.52
53Ji2
No. 112.
44 Mag.
d.
41
42
96
97
123
124
178
179
A Ophinchl
17h. gm.
25.03
25.06
26.88
26.91
27.65
27.68
28.56
28.56
No. 107.
2 Mag.
d
40
41
122
123
177
178
Dec==
/»» Scorpii.
\b^ 56'»-
59*^4
59.99
62.21
62.23
62.75
62.75
—190 24'
No. 102.
41 Mag.
d.
149
r Libra.
15h. 27"-
27103
38
298 MOON-CULMINATING STARS.
Sid. Date,
and No.
and Ma^.
of Siar.
No. 112.
4i Mag.
d.
206
207
Dec.=
Name and
Right Ascension
A Ophiachl
28.5«
28.56
—26° 23'
I No. 113.
4j Mag.
41
42
96
97
Dec =
No. 114.
34 Mag.
69
70
123
124
151
152
178
179
206
207
233
234
261
262
288
289
Dec. =
No. 115.
4M^.
69
70
151
152
232
234
261
262
288
289
Dec =
I Ophiachl.
17b. i2«.
17.92
17.95
19.70
19.73
— 20^57'
& Ophiachi.
\7^ 13m.
6.28
6.31
7.93
7.98
8Ji3
8.55
8.87
8.86
8.88
8.88
8.62
8.60
8.16
8.14
7.73
7.72
— 24<» 51'
d Ophiachi.
17h. 13m.
a.
5.63
5.67
8.01
8.03
8.13
8.12
7.63
7.63
7.20
7.18
— 29*44'
No. 116.
^* Sagtttarii
4 Mag.
18''- 5--
d.
a.
42
4.21
42
4.24
97
5.96
Sid. Date.
and No.
and Mag.
of Star.
No. 116.
4 Mag.
d.
98
124
125
179
180
234
235
289
290
Dec. =
No. 117.
34 Mag.
d.
42
97
98
124
125
152
153
179
180
234
235
289
290
Dec. =
No. 118.
4 Mag.
d.
152
153
Dec. =
No. 119.
5 Mag.
235
236
Dec. =
No. 120.
3 Mag.
d.
70
71
125
126
180
181
207
208
262
Name ami
Right Ascension
of Star.
} Sagittarii.
|gh.5m.
5.99
6.78
6.81
7.97
7.98
. 7.87
7.86
7.00
6.99
—21° 6'
S Sagittarii.
IQii. HOI.
41.23
43.12
43.16
44.02
44.05
44.79
44.81
45.23
45.30
45.28
45.26
44.34
44.33
—290 53'
X Sagittarii.
Igh. 19m.
3.36
3.39
—25^30'
V* Sagittarii.
18^-45'^
27.45
27.44
—22^ 55'
a Sagittarii
IS**- 46«.
15.81
15.82
17.66
17.69
19.04
19.05
19.28
19 29
18.80
Sid. Dale,
and No.
and Mag.
of Star.
No. 120.
3 Mag.
d.
263
Dec =
No. 121.
34 Mag.
d.
70
71
98
99
125
126
180
181
207
208
235
236
262
263
817
318
Dec =
No. 122.
4 Mag.
d.
98
99
317
318
Dec. =
No. 123.
54 Mag.
290
291
Dec.=
No. 124.
4iMag.
153
154
208
209
290
291
Dec =
No. 125.
5 Mag.
126
Name and
Right Aacenaion
of Star.
a Sagittarii
Igh. 45m.
18.78
— 26=» 28'
C Sagittarii.
18'>- 53'»-
22.25
22.29
23.24
23.26
24.17
24.20
25.62
25.63
25.89
25.89
25 80
25.79
25.42
25.40
24.53
24.52
—3005'
T Sagittarii
Igh. 57111.
5dJ32
53.36
54.66
54.65
— 27« 53'
/ * Sagittarii.
a.
28.80
28.78
—240 47'
A* Sagittarii.
I9h. 2701.
54.62
54.65
55.63
65.64
54.84
54.83
— 25*12'
h Sagittarii.
19h. 4gi».
a.
356
.Sid. Date,
and No.
and Mag.
of Star.
No. 125.
5 Mag.
127
263
264
318
319
Dec. =
Name and
Right Aaceoeion.
of Miar .
6 Sagittarii.
19h. 4gii».
a.
3.59
5.33
5.32
4.45
4.44
—27* 33'
No. 126.
A Sagittarii
5iMag.
d.
71
72
19h- 50«-
5^82
5.85
Dec.=
—26*35'
No. 127.
c Sagittarii.
44 Mag.
19''- 53«-
d.
71
72
126
127
153
154
208
209
236
237
263
264
318
319
Dec.=
No. 128.
5 Mag.
d.
236
237
D©c =
43.21
43.24
45.06
45.10
45.97
46.00
47.13
47.14
47.19
47.18
46.91
46.90
46.02
46.01
—28*6'
No. 129.
99
100
181
182
Dec. =
Na 130.
5 Mag.
d.
264
265
7r Capricorni.
20^19^
3.93
8.93
—18*41'
Q Capricorni.
20*»-20^
84.89
84.92
87 J9
87.41
—18* 17'
9 Capricorni.
20»»- 81"-
50.15
50.14
MOON-CULMINATING STARS. 299
Sid. Dale,
Name and
SM. Data,
Name and
Sid. Data,
NaoM and
Sid. Date,
Name and
and No.
aiid Mag.
of Star.
Right Aacenaion
of Star.
and No.
and Mag.
ofSur.
Right AsceoaioQ
of Star.
and No.
and Mag.
ofSur.
Right A<»ceniiion
of Star.
and No.
and Mag.
of Star.
Right AacenaioQ.
ofStar.
No. 130.
Nal36.
y Capricorni.
No. 140.
& Aqnarii
No. 145.
V' Aqnarii
5 Mag.
d.
2oh. aim.
a.
4M^.
2ih. 32-.
a.
44 Mag.
d.
23b. 910.
a.
5iMag.
d.
23h. gm.
a.
347
49.12
100
S.62
294
13.38
211
19.66
Doc.—
—18° 39'
101
2.65
320
13.06
2)2
19.68
155
156
4UJ7
4.40
321
Dec. =
13.05
—8^30'
266
267
20.34
20.35
No. 131.
iff Capricorni.
182
5.20
Der.=
-9° 53'
No. 141.
5 Mag.
a AqoariL
22h. 23'"'
44 5Ug.
2oh.37--
a.
183
237
5.23
6.10
No. 146.
V' Aqnarii. !
99
29.94
238
6.10
^i
a.
5 Mag.
23'»- 11«-
100
29.98
265
6.05
0.88
d.
a.
154
31.82
266
6.04
294
0.87
184
26.48
155
181
182
31.85
32.61
32.64
292
293
347
5.75
5.74
5.08
Dec. =
— ll<»25'
185
239
26.51
27.74
No. 142.
t* Aqnarii.
240
294
295
27.75
264
33.12
348
5.07
54 Mag.
22U. 41 m.
27.84
27.83
265
291
33.11
32.72
Dec.=
—170 19'
d
101
53.87
321
322
27.59
27.58
292
32.71
129
54.62
Dec.=
—250 47'
No. 137.
31 Mag.
d.
100
9 Capricorni
21*'. 89«-
130
156
157
54.65
55.49
55.52
Dec. =
—10^ 24'
No. 147.
27 Piscinm.
No. 132.
17 Capricorni
1.40
183
56.37
5 Mag.
d.
157
158
Dec =
23h.5ioi.
6 Map.
347
Dec =
2oh. 37-.
47.17
—22° 2'
101
155
156
210
211
237
238
1.42
3.15
3.18
4.61
4.63
4.91
4.91
184
238
239
348
349
Dec =
56.40
57..55
57.56
56.91
56.90
—14° 21
15.29
15.32
—4° 22'
No. 148.
44 Mag.
30 Piscinm.
23b. 54m.
a-
1 No. 133.
0} Capricorni
54 Mag.
d.
154
20»>-43'»-
a.
11.24
265
266
292
4.87
4.87
4 60
No. 143.
3M^.
d Aqnarii.
22h. 46«».
a.
21
130
131
30.19
30.95
30.97
155
11.27
293
4.58
101
56.14
212
33.45
291
12.21
347
3.92
129
56.89
213
33.48
292
12.20
348
3.91
130
56.92
267 .
34.33
Dec =
— 27° 27'
Dec =
—16^47'
156
157
183
184
57.77
57.80
58.65
58.69
268
322
323
350
34.34
34.18
34.17
33.92
No. 134.
1 Capricorni.
No. 138.
fA Capricorni.
5 Mag.
21b. 14m.
5 Mag.
2ib. 45111.
211
59.41
351
33.91
d.
127
10.43
d.
128
2344
212
238
59.43
59.87
Dec =
—6° 49'
128
10.47
129
23.48
239
266
59 88
209
12.73
DCC.=:
—14^44'
00.00
No. 149.
33 PiBcinm.
210
319
320
12.74
12.17
12.16
267
348
349
60.00
59.24
59.23
5 Mag.
d.
21
a3'»-57"-
' 53.59
No. 139.
t AqoariL
Dec.=
—17027'
41 Mag.
d.
128
129
2l'»- 58'».
36.22
36.25
Dec.=
—16° 35'
130
131
157
158
54.33
54.36
55.12
55.15
No. 135.
C Capricorni.
No. 144.
f AqnariL
4 Mag.
21b. IQOI.
210
38.62
5Maj^.
23»'-6°*-
185
56.03
d.
a.
211
38.64
a.
186
56.06
127
23.33
320
38.39
184
50.26
212
56.82
128
23.36
321
38.37
185
50 29
213
56.85
182
183
209
25.12
25.15
25.72
Dec =
— 14«> 34'
239
240
51.48
51.49
267
968
57.72
57.72
294
51.56
322
57.59
210
25.73
No. 140.
^ Aqoarii.
295
5lJi6
323
57..58
319
320
25.17
25.16
4frMag.
22^. 9«a.
a.
321
322
51.31
51.30
350
351
57.33
57.32
Dec.=
—2302'
293
13.39
Dec.=
—6° 50'
Dec.=
—6° 31'
300
MOON, 1855.
FOR WASHINGTON MEAN NOON AND MIDNIGHT.
JANUARY.
FEBRUARY.
Dftte.
Semidi.
amoter
Hor.Pkr.
HouriT
Diff.
MeridiftQ
TraiMiu
Hourtj
Diff.
Semidi.
ainet«r.
Hor.Pkr.
Hourly
Diff
Meridian
Traiwiu
hourly
Diff
1 II
1 II
11
h. m.
m.
1 M
1 II
w
h. m.
m.
Jan. 1.0
U 54.7
54 86.5
—0.78
U.ll 8.0
2.16
14 44.4
63 69.2
-H).05
L. 0 0.2
1.98
1.5
14 52.3
54 27.7
0.68
L.23 38.9
2.16
14 44.7
54 0.4
0.15
U. 12 23.6
1.98
20
1 4 50.2
54 20 2
0.57
U.ll 59.7
2.14
14 45.4
64 2.8
026
L. 0 464
1.88
2.5
14 48.5
54 13.9
0.47
14 46.5
64 6.5
0.87
U.18 8.6
1.88
3.0
14 47.2
54 8.9
0.37
L. 0 25.8
2.12
14 47.9
64 11.6
0.48
L. 1 80.3
1.79
8.5
14 461
54 5.0
0.27
U. 12 50.5
2.09
14 49.6
54 18.0
0.58
U. 13 61.6
1.76
4.0
14 454
54 2.3
0.17
L. 1 15.3
2.05
14 51.7
54 25.7
0.70
L. 2 12.5
1.78
4.5
14 45 0
54 0.8
—0.06
u. 18 89.6
2.00
14 542
64 34.8
0.82
U. 14 83.1
1.71
5.0
14 449
54 0.8
-+-0.06
L. 2 3.2
1.95
14 57.1
64 45.8
0.94
L. 2 68.5
1.70
5^
14 452
54 2.4
0.20
U. 14 26.2
1.90
15 0.4
54 57.2
1.06
U.15 18.9
1.70
6.0
14 461
54 5.6
0.34
L. 2 48.6
1.85
15 4.1
55 10.8
1.20
L. 8 844
1.72
6.5
U 475
54 10.5
0.48
U. 15 10.4
1.80
15 8.2
55 25.9
1.33
U. 16 65.1
1.74
7.0
14 49.3
54 17.1
0.63
L. 8 31.7
1.76
15 12.7
55 42.6
1.46
L. 4 16.1
1.77
7Ji
14 51.7
54 25.6
0.80
u. 15 52.7
1.74
15 17.7
56 1.0
1.60
U.16 87.6
IJl
8.0
14 546
54 36.3
0.98
L. 4 13.4
1.72
15 28.2
56 21.2
1.75
L. 4 69.7
1.88
8.5
14 58.1
54 49.2
1.18
u. 16 83.9
1.71
15 29.2
56 48.0
1.88
U. 17 22.7
1.96
9.0
15 2.3
55 4.5
1.37
L. 4 54.4
1.71
15 85.6
57 6.2
1.99
L. 5 46 7
2.04
9.5
15 7.1
55 21.9
1.54
U.17 14.9
1.72
15 42.3
57 80.7
2.09
u.18 11.8
2.14
10.0
15 124
55 41.4
1.71
L. 5 35.7
1.75
15 49.3
67 56.8
2.17
h, 6 88.2
2.26
10.5
15 18.3
56 3.0
1.89
U.17 56.9
1.79
15 56.5
68 22.7
2.21
U.19 6.1
2.37
11.0
15 24.7
56 26.7
2.05
L. 6 18.7
1J5
16 3.8
58 49.3
2.21
L. 7 85.3
2.48
11.5
15 81 6
56 52.2
2.19
U.18 41.2
1.91
16 10.9
59 15.6
2.16
U.20 5.7
2.58
12.0
15 390
57 19.4
2.82
L. 7 4.6
2.00
16 17.8
59 41.0
2.05
L. 8 87.1
2.66 1
\2A
15 46 8
57 47.7
2.39
U. 19 29.2
2.10
16 24.3
60 4.8
1.89
U.21 94
2.71
13.0
15 548
58 16.6
2.42
L. 7 55.1
2.22
16 30.2
60 26.2
1.67
L. 9 42.1
2.78
13.5
16 28
58 45.7
2.41
U.20 22.5
2.84
16 35.3
60 44.8
1.40
u.22 14.8
2.71
14.0
16 106
59 14.5
2.36
L. 8 51.2
246
16 89.4
60 69.8
1.08
L. 10 47.1
2.66
14.5
16 181
59 42.2
223
U.21 21.5
2Ji8
16 42.3
61 10.7
0.72
U.28 18.6
2.58
15.0
16 25.1
60 7.9
2.03
L. 9 53.2
2.68
16 44.0
61 17.0
-1-0.33
L. 11 49.1
2.49 1
15.5
16 314
60 809
1.78
U.22 25.8
2.75
16 44.4
61 18.5
—0.08
16.0
16 36.8
60 50.6
M8
L. 10 59.0
2.78
16 43.4
61 15.0
0.49
U. 0 184
2.40 '
16.5
16 41.2
61 6.5
1.14
U. 28 82.4
2.77
16 41.2
61 6.7
0.89
L. 12 46.7
2.81
17.0
16 44 3
61 18.0
0.76
16 87.7
60 63.8
1.25
U. 1 13.9
2.23
17.5
16 46.1
61 24 6
-H)34
L.12 6.7
2.75
16 83.0
60 86.8
lJi7
L. 13 40.1
2.15
18.0
16 46.5
61 26.1
— 0X)9
u. 0 38.3
2.68
16 27.3
60 16.1
1.85
U. 2 6.6
2.10 I
18.5
16 45 5
61 22 5
0.51
L. 13 9.9
2.59
16 20.8
59 52.4
2.08
L. 14 804
2.05 ,
19.0
16 43.2
61 13.9
0.91
U. 1 40.4
2.49
16 13.7
69 26.2
2.26
U. 2 64.8
2.01 ,
19.5
16 39.6
61 00.8
1.26
L. 14 9.6
2.38
16 6.1
58 58.3
2.33
L. 15 18.8
1.99
20.0
16 34 9
60 437
1.58
U. 2 87.4
2.27
15 58.3
58 29.5
2.41
U. 8 42.7
1.98 1
20A
16 29.2
60 22.8
1.86
L.15 4.8
2.17
16 60.4
68 0.5
2.43
L.16 6.5
1.99
21.0
16 22.8
59 59.0
2.07
U. 8 29.5
24)9
15 42.6
57 81.9
2.35
U. 4 80.4
2.00
21.5
16 15.8
59 83.2
2.21
L. 15 54.2
2.03
15 85 0
57 4.1
2.27
L.16 54.5
2.02 ,
22.0
16 8.4
59 6 1
2.30
U. 4 18.2
1.98
15 27.8
66 87.6
2.15
U. 5 18.8
2.04 !
22.5
16 0.7
58 88.2
2.34
L. 16 41.7
1.94
15 21.0
56 12.7
2.00
L.17 43.5
2X)7 '
23.0
15 53.0
58 10.1
2J3S
U. 5 4.9
1.92
15 14.7
55 49.7
1.83
U. 6 8.6
2.10
23.5
1« 45.4
57 42.4
2.28
L. 17 27 9
1.91
15 9.0
55 28.9
1.64
L. 18 38.9
2.12
24.0
15 88.1
57 15.5
2.19
U. 5 50.8
1.92
16 8.9
55 10.3
1.46
U. 6 69.4
2.13 1
24.5
15 81.1
56 49.9
2.07
L. 18 13.8
1.98
14 59.4
54 63.8
1.28
L. 19 25.1
2.15 '
25.0
15 24.6
56 25 9
1.93
U. 6 37.0
1.94
14 55.6
54 89.7
1.08
U, 7 50.9
2.16
25.5
15 18.5
56 3.6
1.79
L. 19 04>
1.98
14 52.4
54 28.0
0.88
L. 20 16.7
2.14
26.0
15 12.9
55 48.1
1.63
U. 7 24.5
2.01
14 49.8 54 18.5!
0.69
U. 8 42.8
2.12
26.5
15 7.9
55 24.5
1.47
L. 19 48.9
2.05
14 47.8
54 11.3
0.51
L.21 7.5
2.09
27.0
15 8.4
55 8.0
1.29
U. 8 13.3
2.08
14 46.4
54 6.2
0.84
U. 9 32.3
2.05
27.5
U 59.4
54 53.5
1.18
L. 20 38.8
2.11
14 45.5
64 3.1
0.18
L.21 56.6
200
28.0
14 55.9
54 40.9
0.97
U. 9 43
2.13
14 45.2
64 1.9
—0.03
U. 10 204
1.96 1
28.5
14 52.9
54 30.1 1
0.83
L.21 29.8
2.14
14 45.3
64 2.4
-hO.U
L.22 48.6
1.91 '
29.0
14 50.4
54 21.0
069 D. 9 55.51
2.18
14 45.9
64 4.5
0.25
U.ll 6.2
1.86
29.5
14 48.4
54 13.5
0.57
L.22 21.1
2.12
14 46.9
54 8.2
0.37
L. 28 28.2 1.81 ,1
30.0
14 46.8
54 7.7
0.41
U. 10 46.5
2.10
14 48.3
64 18.3
0.48
U.ll 49.8 1.78 '
80.5
14 45.6
54 8.5
0.29 L. 23 11.5
2.07
14 50.0
64 19.71
0.59
1 !
81.0
14 44.8
54 0.7
0.17, u.ll 86.1
2M
14 52.1
64 27.4*
0.69 L. 0 11.0' 1.75 1
81.5
14 44.4
53 59.3
-0.061
1
14 54.5
64 86.2
-1-0.78
U.12 81.8|
1.72 .
MOON, 1855.
301
FOR WASHINGTON BIEAN NOON AND MIDNIGHT.^
MARCH.
APRIL.
Date.
Seraidl.
•meter.
Hor. Par.
Hourij
Dlff
Meridian
Transit.
Houriy
Diff.
Semidi.
ameter.
Hor. Par
Hourly
Diff
Mendian
Tranait.
Hourly
Diff.
d.
1 u
1 II
M
h. m.
m.
1 II
/ II
u
h. m.
TJ.
1.0
14 45.9
54 4.1
-H).25
U.ll 6.2
1.86
15 4.9
55 13.7
H-1.10
U.ll 51.9
1.73
1.5
14 46.9
54 82
0.37
L.23 28.2
IJl
15 8.6
55 27.3
1.16
*
2.0
14 48.3
54 13.3
0.48
U.ll 49.8
1.78
15 12.5
55 41.5
1.20
L. 0 12.8
1.75
2.5
14 50.0
54 19.7
0.59
15 16.5
55 56.2
1.23
U. 12 34.1
1.79
8.0
14 52.1
54 27.4
0.69
L. 0 11.0
1.75
15 20.5
56 11.1
1.25
L. 0 55.8
1.83
3.5
14 54.5
54 36.2
0.78
U.12 31.8
1.72
15 24.5
56 26.1
1.26
U.13 18.1
1.89
4.0
14 57.2
54 46.0
0.85
L. 0 524
1.71
15 28.6
56 41.2
1.26
L. 1 41.2
1.95
4.5
15 0.1
54 56.6
0.92
U.13 12.9
1.71
15 32 7
56 56.3
1.25
U.14 5.1
2.03
5.0
15 3.3
55 8.1
1.00
L. 1 334
1.71
15 36.8
57 11.2
1.23
L. 2 30.0
2.12
5.5
15 6.7
55 20.5
1.07
U. 13 54.0
1.73
15 40.8
57 25,8
1,21
U. 14 56.0
2.21
6.0
15 10.3
55 33.7
1.14
L. 2 14.9
1.74
15 44.8
57 40.2
1.19
L. 3 23.0
2.29
6.5
15 14.2
55 47.8
1.22
U. 14 36.2
1.79
15 48.6
57 64.3
1.17
U.15 51.1
2.38
7.0
15 18.3
56 2.8
1.29
L. 2 58.0
1.85
15 524
58 8.1
1.14
L. 4 20.1
245
7J>
15 22.6
56 18.6
1.36
U. 15 20.5
1.91
15 56.0
58 21.5
I.IO
u. 16 49.9
2.51
8.0
15 27.1
56 35.3
1.43
L. 3 43.8
1.98
15 59.6
58 344
1.06
L, 5 20.3
2.53
8.5
15 31.8
56 52.9
1.50
D.16 8.0
2.06
16 3.1
58 46.8
1.01
u.17 51.0
2.57
9.0
15 36.8
57 11.2
1..55
L. 4 33.3
2.15
16 64
58 58.6
0.96
L. 6 21.8
2.55
9.5
15 42.0
57 30.2
1.61
U. 16 59.7
2.24
16 94
59 9.7
0.90
u. 18 52.1
2.51
10.0
15 47.4
57 49.9
1.66
L. 5 27.2
2.34
16 12.2
59 20.0
0.82
L. 7 21.8
245
10.5
15 53.0
58 10.0
1.69
U.17 55.9
2.44
16 14.7
59 29.2
0.71
U. 19 51.0
2.39
11.0
15 58.6
58 30.4
1.70
L. 6 25.7
2.52
16 16.8
59 36.9
0.57
L. 8 19.3
2.32
U.5
16 4.2
58 50.8
1.69
u. 18 56.3
2.57
16 184
59 42.8
041
U.20 46.7
2.25
12.0
16 9.6
59 10.8
1.64
L. 7 274
2.60
16 19.5
59 46.6
0.22
L. 9 13.3
2.19
12J5
16 14.8
59 30.0
1.55
U. 19 58.7
2.61
16 19.9
59 48.1
-H).02
U.21 39.2
2.13
13.0
16 19.7
59 47.9
142
L. 8 30.0
2.60
16 19.6
59 47.2
—0.18
L. 10 4.4
2.08
13.5
16 24.1
60 4.0
1.24
U.21 0.9
2.56
16 18.6
59 43.7
040
U. 22 29.2
2.05
14.0
16 27.8
60 17.7
1.02
L. 9 31.3
2.50
16 16.9
59 374
0.65
L. 10 63.7
2.03
14.5
16 30.8
60 28.5
0.77
U.22 1.0
244
16 144
59 28.2
0.88
U.23 17.9
2.02
15.0
16 32.9
60 36.2
0.49
L. 10 29.8
2.36
16 ll.l
59 16.3
1.10
L. 11 42.1
2.02
153
16 34.0
60 40 3
-H).18
U. 22 57.5
2.27
16 7.1
59 1.9
1.30
16.0
16 34.1
60 40A
—0.16
L. 11 24.3
2.20
16 2.5
58 45.2
148
U. 0 6.3
2.02
16.5
16 33.0
60 364
051
U.23 504
2.14
15 574
58 26.5
1.63
L. 12 30.7
2.05
17.0
16 30.7
60 28.3
0.85
15 51.9
58 6.2
1.74
U. 0 55.5
2.08
l7Ji
16 27.4
60 16 2
1.16
L. 12 15.8
2.10
15 46.1
57 44.8
1.81
L. 13 20.6
2.11
18.0
16 23.1
60 0.6
1.43
U. 0 40.8
2.06
15 40.1
57 22.7
1.86
U. 1 46.1
2.14
18.5
16 18.0
59 419
1.68
L. 13 54
2.04
15 34.0
57 0.2
1.88
L. 14 12.0
2.18
19.0
16 12.1
59 20.4
1.89
U. 1 29.9
2.03
15 27.9
56 37.8
1.84
U. 2 384
2.21
19.5
16 5.6
58 56.5
2.06
L. 13 54.3
2.03
15 22.0
56 16.1
1.76
L. 15 5.1
2.23
20.0
15 58.7
58 31 0
2.16
U. 2 18.7
2.04
15 16.3
55 55.5
1.67
U. 3 31.9
2.24
20-5
15 51.5
58 4.8
2.20
L. 14 43.3
2.06
15 11.0
55 36.0
1.56
L. 15 58.8
2,24
21.0
15 44.3
57 38.2
2.22
U. 3 8.1
2.08
15 6.1
55 18.1
142
U. 4 25.6
2.22
21.5
15 37.1
57 11.6
2.19
L. 15 33.2
2.11
15 1.7
55 2.0
1.25
L. 16 52.1
2.20
22X)
15 30.1
56 458
2.11
U. 3 58.7
2.14
14 57.9
54 48.1
1.06
U. 5 18.2
2.16
22.5
15 23.2
56 21.1
2.01
L. 16 24.5
2.16
14 54.7
54 36.6
0.86
L. 17 43.8
2.11
23.0
15 16.8
55 57.7
1.88
U. 4 50.6
2.18
14 52.2
54 27.5
0.66
u. 6 8.7
2.06
23.5
15 ll.O
55 36.1
1.72
L. 17 16.9
2.19
14 504
54 20.8
046
L. 18 33.0
2.01
24.0
15 5.7
55 16.6
1.54
U. 5 43.2
2.19
14 49.3
54 16.7
0.23
U. 6 56.5
1.95
24.5
15 1.0
54 59.5
1.34
L. 18 9.5
2.18
14 48.9
54 15.2
—0.01
L. 19 194
1.88
25.0
14 57.0
54 44.9
Ml
u. 6 35.5
2.16
14 49.2
54 16.3
-H0.20
u. 7 41.6
1.83
25.5
14 53.7
54 32.9
0.89
L.19 1.2
2.13
14 50.2
54 19.9
040
L.20 3.3
1.79
26.0
14 51.1
54 23.4
0.69
U. 7 26.5
209
14 51.8
54 25.9
0.59
u. 8 24.6
1.75
26.5
14 49.1
54 16.3
049
L. 19 51.3
2.05
14 54.0
54 34.0
0.74
L. 20 45 6
1.73
27.0
14 47.8
54 11.6
0.29
u. 8 15.5
2.00
14 56.8
54 44,1
0.92
U. 9 6.2
1.72
27.5
14 47.2
54 9.3
—0.10
L. 20 39.2
1.95
15 0.2
54 56.2
1.09
L.21 26.7
1.71
28.0
14 47.2
54 9.2
-+-0. 8
U. 9 2.2
1.90
15 4.0
55 10.1
1.22
U. 9 47.3
1.72
28.5
14 47.8
54 11.3
027
L. 21 24.7
1.86
15 8.1
55 254
1.33
t. 22 8.0
1.74
29.0
14 48.9
54 15.5
043
U. 9 46.6
1.81
15 12.5
55 41.9
1.41
U. 10 29.1
1.77
29.5
14 50.6
54 21.5
0.58
L.22 8.0
1.76
15 17.2
55 59.2
147
L. 22 50.6
1.81
30.0
14 52.8
54 29.3
0.72
U. 10 29.0
1.74
15 22.1
56 17.1
1.50
U.ll 12.7
1.87
30.5
14 55.3
54 38.7
083
L. 22 49.8
1.72
15 27.1
56 35.2
1.51
L. 23 35.4
1.93
31.0
U 58.2
54 49.3
0.93
U.ll 10.5
1.72
15 32.1
56 53.3
1.50
U.ll 59.1
2.02
31.5
15 1.4
55 1.0
-4-102
L. 23 31.2
1.72
15 36.9
.•>7 11.1
-4-1.46
302
MOON, 1855.
1 FOR WASHINGTON MEAN NOON AND MIDNIGHT.
MAY.
JUNE.
Date.
Semidi-
ameUjr.
Hot. Pit.
Houriy
Diff.
Meridian
Transit.
Uourir
Diff
m.
SemMi.
ameter.
Hor.Ptt.
1 II
Houriy
Diff
Meridian
Transit.
Houriy
Diff
m.
d.
1 M
1 II
N
h. m.
1 M
II
h. in.
1.0
15 32.1
56 53.3
-hl.50
U.U 69.1
2X)2
16 124
59 204
-+-1.06
L. 1 2.0
2,60
1.5
15 36.9
57 11.1
146
16 16.5
69 31.8
0.84
U. 13 33.6
2.65
20
15 41.6
57 28.4
141
L. 0 23.8
2.10
16 17.8
69 40.6
061
L. 2 05.6
2.66
2.5
15 46.1
57 44.9
1.34
U. 12 49.5
2.19
16 19.3
69 464
0.38
U. 14 374
2.64
3.0
15 50.3
58 0.4
1.24
L. 1 16.3
2J27
16 20.1
69 49.6
-M).15
L. 3 8.8
2.59
3.5
15 54.2
58 14.6
1.12
U. 13 44.2
2.36
16 20.3
69 50.0
— 0X)7
U. 15 394
2.51
4.0
15 57.7
58 27.3
1.01
L. 2 13.1
245
16 19.8
69 48J0
0.27
L. 4 9.1
2.43
A^
16 0.8
58 38.7
0.89
U. 14 43.0
2.53
16 186
69 43.6
045
U.16 37.7
2.34
5.0
16 3.5
58 48.7
0.76
L. 3 13.7
2.67
16 16.9
59 37.3
0.61
L. 5 5.2
2.25
5.5
16 5.8
58 57.1
0.64
U. 15 44.7
2.58
16 14.7
59 29.2
0.74
U.U 31.6
2.16
6.0
16 7.7
59 3.9
0.50
L. 4 15.7
2.58
16 12.1
59 19.7
0.85
L. 5 57.2
2J09
6.5
16 9.1
59 9.1
0^7
U. 16 46.5
2.55
16 9.1
59 8.9
0.94
U. 18 21.9
2.03
7.0
16 10.2
59 13.0
0.27
L. 5 16.8
249
16 5.8
68 67.2
1X)1
L. 6 46.0
1.98
7.5
16 10.9
59 15.6
0.17
U.17 46.2
241
16 24
68 44.7
1.07
U.19 9.5
1.94
8.0
16 IIJ
59 16.9
-M).06
L. 6 14.7
2.33
15 58.9
68 31.6
1.11
L. 7 32.7
1.92
8.5
16 11.4
59 17.0
—0.04
U. 18 42.2
2.25
15 65.2
58 18J0
1.15
U. 19 65.8
1.92
9.0
16 11.1
59 16.0
0.13
L. 7 8.8
2.18
15 61.3
68 4.0
1.18
L. 8 18.9
1.93
9.5
16 10.5
59 13 8
0.23
U.19 34.5
2.11
15 474
67 49.7
1.21
U.20 42.2
1.94
10.0
16 9.5
59 104
0.33
L. 7 59.5
2.08
16 434
67 35.1
1.23
L. 9 5.8
1.98
10.5
16 8.2
59 5.7
0.44
U.20 23.9
2.01
15 394
57 20.3
1.24
U.21 29.9
2X)2
11.0
16 6.6
58 69.7
0.56
L. 8 47.9
1.98
15 35.3
67 54
1.25
L. 9 54.5
2.03
11.6
16 4.6
58 52.3
0.68
U.21 11.5
1.96
15 31.2
66 50.3
1.26
U.22 19.6
2.11
12.0
16 2.2
68 43.5
0.79
L. 9 35.0
1.96
15 27.1
56 35.2
1.26
L. 10 45.2
2.16
12.5
15 59.3
58 33.2
0.94
n.21 58.5
1.97
15 23.0
56 20.2
1.24
U.23 114
2.20
13.0
15 56.1
58 21.5
1.04
L. 10 22.2
1.99
15 19.0
56 54
1.23
L. 11 38.0
2.23
l3Ji
15 52.5
58 84
1.15
U. 22 46.2
2.01
15 15.0
66 60.8
1.21
14.0
15 48.6
57 54.0
1.25
L. 11 10.6
2.05
15 11.2
66 36.5
1.17
U. 0 4.9
2.26
14.5
15 44.3
57 38.5
1.33
U.23 35.6
2.10
15 74
65 22.8
1.11
L. 12 31.9
2.24
15.0
15 39.8
57 22.1
1.40
15 3.8
56 98
1.05
U. 0 68.8
2.23
15.5
15 35.2
57 5.0
145
L.12 1.0
2.14
15 04
64 67.6
0.98
L. 13 254
2.21
16.0
15 30.5
56 47.4
1.48
U. 0 26.9
2.17
14 57.3
64 46.3
0.89
U. 1 51.6
217
16.5
15 25.7
56 29 5
1.49
L. 12 53.2
2J1
14 64.6
64 36^
0.78
L. 14 17.3
2.11
17.0
15 20.8
56 11.7
147
D. 1 20.0
2.24
14 52.2
64 27.6
0.67
U. 2 42.2
2.05
17.5
15 15.9
56 64.3
1.43
L. 13 47.1
2.27
14 60.3
54 204
0.62
L. 15 64
1.99
18.0
15 11.3
56 374
1.37
U. 2 14.3
2.26
14 48.8
54 15.1
0.36
U. 3 29.8
1.92
18.5
16 7jO
55 21.5
1.28
L. 14 41.3
2.24
14 47.9
54 11.8
0.20
L. 16 624
1.86
19.0
16 3.0
55 68
1.16
U. 3 8.0
2.21
14 47.5
54 10.3
—0.02
U. 4 14.3
1.79
l9Ji
U 69.3
54 63.6
1.04
L. 15 34.2
2.16
14 47.8
54 11.3
-1-0.17
L. 16 35.6
1.76
20.0
14 56.1
64 42.0
0.90
U. 3 59.9
2.12
14 48.7
54 14.5
0.37
U. 4 66.4
1.71
20.5
14 53.4
64 32.2
0.73
L. 16 25.0
iM
14 60.2
54 20.1
0.67
L.17 16.8
1.69
21.0
14 514
54 24.6
0.54
U. 4 49.2
1.99
14 624
54 28.2
0.78
U. 6 37.0
1.67
21.5
14 60.0
64 19.3
0.35
L. 17 12.6
1.92
14 65.3
54 38 8
0.98
L. 17 57.1
1.67
22X)
14 49.3
54 16.3
—0.15
U. 6 364
1J7
14 58.9
54 51.9
1.19
U. 6 17.2
1.68
22.5
14 49.1
54 15.8
-K).07
L. 17 57J5
1.82
16 3.2
55 74
1.39
L. 18 874
1.70
23.0
14 49.6
64 17.9
0.29
u. 6 19.1
1.78
16 81
55 25.2
1.58
U. 6 58i)
1.74
23.5
14 60.9
54 22.8
0.61
L. 18 40.3
1.76
16 13.5
55 45.2
1.76
L. 19 19.1
1.78 1
24.0
14 62.9
54 30.1
0.71
U. 7 1.0
1.71
16 19.5
66 7.1
1.89
U. 7 40.8
1.84 ,
24.5
14 65.6
64 39 8
0.91
L. 19 214
1.69
15 25.9
56 30.7
2.02
L.20 34
1.92 1
25.0
14 68.9
64 62.0
1.12
U. 7 41.7
1.69
15 327
56 55.5
2.11
U. 8 27 J)
2.02 .
25.5
16 2.9
55 6.5
1.29
L.20 2,0
1.70
15 89.7
57 21J}
2.17
L. 20 61.8
2.12
26.0
15 7.4
56 22.9
145
D. 8 22.6
1.73
15 46.9
57 47.6
2.19, U. 9 ns
2.23 i
26.5
16 124
55 41.1
1.59
L.20 43.5
1.76
15 54.2
58 13.8
2.16 L.21 454
2.34
27.0
15 17.8
66 0.9
1.71
U. 9 6.0
1.81
16 1.1
58 89.5
2.09 U. 10 14.2
^ii \
27.5
15 23.5
56 22.0
1.79
L.21 27.1
1.88
16 7.7
59 3.9
1.95' L. 22 44.3
J2?
28.0
16 29.5
56 43.7
1.83
U. 9 60.1
1.96
16 13.9
59 26.3
1.78 C.ll 156
*^S1 '
28.5
16 35.6
57 5.9
1.87
L. 22 14.0
2.03
16 194
59 464
1.57 L. 23 47.7
2.70 1
29.0
15 41.7
57 284
1.87
V. 10 38.9
2.12
16 24.2
60 3.9
1.33
29.5
15 47.7
57 60.5
1.81
L.23 6.0
2il2
16 28.1
60 18.2
1.04 U.U 20J
272 -
30.0
15 53.4
58 11.7
1.72
U.U 324
2.34
16 31.0
60 28.7
0.72 L. 0 53.0
2.70
1 30.5
15 68.3
58 31.7
1.60
16 32.8
60 354
0.40 U.13 25.2
2.65
31.0
16 4.0
M 60.1
145
L. 0 1.2
245
16 33.5
60 38.2
-K)07. L. 1 66.7
^Sl
1 31.5
16 8.5 1 59 6.4
-1-1.27
U.12 31.1
2.53
16 33.1
60 37.0
—0.26 U. 14 27.2
.*^t
MOON, 1855.
303
FOR WASHINGTON MEAN
NOON AND MIDNIGHT.
JULY.
AUGUST.
Date.
Semidi.
uneter.
Hor.Pkr.
Hourlj
DIff.
Meridian
Transit.
Hourlj
Diff.
Semidi-
atneler.
Hor. Pkr.
Hourij
Diir
Meridian
Trenail.
Hourty
DifT.
d.
t N
1 H
N
h. m.
m.
1 n
1 II
II
h. in.
m.
1.0
16 33.5
60 38.2
-K).07
L. 1 56.7
2.59
16 264
60 12.6
—1.73
U 3 24.2
2.06
1.5
16 .33.1
60 37.0
—0.26
u. 14 27.2
2.50
16 20.5
59 50.8
1.90
U. 15 48.7
2.02
2.0
16 31.8
60 32.1
0.55
L. 2 56.6
240
16 14.1
59 27.0
2.04
L. 4 12.8
2.00
2.5
16 29.5
60 23.8
0.82
U.15 24.7
2.29
16 7.3
59 02.1
2.12
U. 16 36.8
1.99
3.0
16 26.4
60 12.5
1.06
L. 3 51.7
2.20
16 0.3
58 364
2.14
L. 5 0.7
1.99
3.5
16 22.6
59 58.5
1.26
U.16 17.6
2.12
15 53.2
58 10.7
2.12
U.17 24.3
2.01
4.0
16 18.1
59 42.3
1.42
L. 4 42.6
2.05
15 46.3
57 45.5
2.07
L. 5 48.9
2.03
4.5
16 13.3
59 24.4
1.54
U.17 6.9
2.00
15 39.6
57 21.0
2.01
U.18 13.5
2.06
5.0
16 8,2
59 5.5
1.61
L. 5 30.6
1.97
15 33.2
56 574
1,92
L. 6 384
2.09
5.5
16 2.8
58 45.8
1.66
U.17 54.1
1.95
15 27.1
56 35.0
1.81
U.19 3.8
2.12
6.0
15 57.2
58 25.6
1.69
L. 6 174
1.94
15 214
56 14.0
1.69
L. 7 29.5
2.15
6.5
15 51.6
58 5.2
1.68
U. 18 40.7
1.94
15 16.1
55 54.6
1.57
U.19 65.6
2.18
7.0
15 46.2
57 45.2
1.65
L. 7 4.1
1.96
15 11.3
55 36.8
142
L. 8 22.0
2.21
7.5
15 40.9
57 25.6
1.61
U.19 27.8
1.99
15 6.9
55 20.5
1.29
U.20 48.5
2.21
8.0
15 35.7
57 6.6
1.56
L. 7 51.8
2.02
15 2.8
55 5.8
1.15
L. 9 15.0
2.21
8.5
15 30.7
56 48.3
1.50
U.20 16.3
2M
14 59.2
54 52.7
1.03
U.21 414
2.19
9.0
15 25.9
56 30.8
143
L. 8 41.3
2.10
14 56.0
54 41.0
0.92
L. 10 7.5
2.15
9.5
15 21.3
56 14.0
1.37
U. 21 6.8
2.14
14 53.2
54 30.7
0.80
U. 22 33.0
2.10
\0J0
15 16.9
55 58.0
1.29
L. 9 32.8
2.18
14 50.8
54 21.8
0.68
L. 10 57.9
2.04
10.5
15 12.8
55 43.0
1.22
U.21 59.1
2.20
14 48.7
54 144
0.56
U.23 22.1
1.99
11.0
15 9.0
55 28.9
1.14
L. 10 25.7
2.22
14 47.1
54 8.5
043
L. 11 45.6
1.94
11.5
15 5.4
55 15.7
1.07
U.22 52J5
2.23
14 45.9
54 4.0
0.33
12.0
15 2.0
55 3.4
0.99
L. 11 19.2
2.21
14 44.9
54 0.7
0,23
U. 0 8i>
1.89
12.5
14 58.9
54 62.0
0.91
U. 23 45.5
2.18
14 44.3
53 58.6
0.12
L. 12 30.7
1.83
13.0
14 56.1
54 41.7
0.82
14 44.1
53 57.9
—0.00
U. 0 52.2
1.76
13.5
14 53.5
54-32.5
0.73
L.12 114
2.13
14 44.3
53 58.7
4-0.13
L. 13 13.0
1.72
14.0
14 51.2
54 24.3
0.64
U. 0 36.7
2.08
14 44.9
54 0.9
0.24
U. 1 33.4
1.69
14.5
14 49.3
54 17.2
0.54
L.13 1.3
2.02
14 45.9
54 4.6
0.38
L. 13 534
1.66
15.0
14 47.8
54 UA
0.43
U. 1 25.2
1.96
14 474
54 9.9
0.51
u. 2 13.3
1.65
nJi
14 46.7
54 7.0
0.31
I. 13 484
1.90
14 49.3
54 16.9
0.65
L. 14 33.1
1.64
16.0
14 45.9
54 4.1
0.18
U. 2 10.8
1.84
14 51.6
54 25 5
0.79
U. 2 52.8
1.65
16.5
14 45.5
54 2.8
—0.04
I. 14 32.5
1.78
14 544
54 35.9
0.95
L. 15 12.7
1.66
17.0
14 45.6
54 3.2
H-O.IO
U. 2 53.6
1.74
14 57.8
54 48.3
1.11
U. 3 32.8
1.69
17.5
14 46.2
54 6.4
0.26
I. 15 14.2
1.70
15 1.8
55 2.6
1.27
L. 15 534
1.74
18.0
14 47.3
54 9.5
042
U. 8 344
1.67
15 6.3
55 18.9
1.44
U. 4 14.6
1.79
18.5
14 49.0
54 15.6
0.60
L. 15 544
1.65
15 11.3
55 37.2
1.61
I. 16 36.5
1.86
19.0
14 51.3
54 24.0
0.80
U. 4 14.2
1.65
15 16.8
55 57.5
1.77
U. 4 594
1.95
19.5
14 54.2
54 34.8
0.99
L. 16 34.0
1.65
15 22.8
56 19.8
1.92
L. 17 23.3
2.03
20.0
14 57.8
54 47.8
1.18
V. 4 54.0
1.67
15 29.3
56 43.7
2.05
U. 5 48.3
2.13
20.5
15 2.0
55 8.2
1.38
L. 17 14.3
1.70
15 36.3
57 9.1
2.18
L. 18 14.5
2.24
21.0
15 6.9
55 21.0
1.58
U. 5 35.0
1.74
15 43.6
57 35.9
2.28
U. 6 42.1
2.36
21.5
15 12.3
55 41.0
1.75
L. 17 56.3
1.81
15 51.2
58 3.7
2.34
L. 19 11.0
246
22.0
15 18.3
56 3.0
1.91
U. 6 18.5
1.88
15 59.0
58 31.9
2.35
U. 7 41.0
2.54
22.5
15 24.8
56 26.9
2.06
L. 18 41.6
1.97
16 6.7
59 0.0
2.31
L. 20 12.0
2.61
23.0
15 31.9
56 52.5
2.20
U. 7 5.9
2.07
16 14.2
59 27.3
2.23
U. 8 43.7
2.66
23.5
15 39.3
57 19.6
2.31
L. 19 314
2.18
16 21.3
59 53,3
2.09
L.21 15.7
2.67
24.0
15 46.9
57 47.8
2.37
U. 7 58.3
2.30
16 27.8
60 17.3
1.89
U. 9 47.7
2.65
24^
15 54.7
58 16.4
2.38
L. 20 26.6
241
16 33.6
60 38.6
1.64
L. 22 19.3
2.60
25.0
16 2.5
58 44.8
2.34
U. 8 56.2
2.52
16 38.5
60 56.5
1.33
U. 10 50.1
2.54
25.5
16 10.2
59 12.5
2.26
L.21 27.1
261
16 42.3
61 104
0.97
L. 23 20.1
2.46
26.0
16 17.4
59 38.9
2.12
U. 9 59.0
2.69
16 44.8
61 19.7
0.58
U.ll 49.2
2.38
26.5
16 23.9
60 3.2
1.92
L. 22 31.5
2.72
16 46.0
61 24.3
-1-0.18
27.0
16 29.8
60 24.8
1.66
u.ll 4.3
2.73
16 45.9
61 24.0
—0.23
L. 0 17.3
2.31
27.5
16 34.8
60 43.0
1.36
L. 23 36.9
2.70
16 44.5
61 18.8
0.63
U. 12 44.6
2.24
28.0
16 38.7
60 574
1.02
16 41.8
61 8.7
1.03
L. I 10.9
2.17
28.5
16 41.5
61 7A
0.64
U.12 8.9
2.63
16 37.8
60 54.0
1.39
U. 13 36.6
2.12
29.0
16 42.9
61 12.7
-hO.25
L. 0 40.0
2.55
16 32.7
60 354
1.69
L. 2 1.8
2.09
29.5
16 42.9
61 13.4
—0.13
U.13 10.0
246
16 26.7
60 134
1.95
U. 14 26.8
2.07
30.0
16 41.8
61 9.5
0.51
L. 1 38.9
2.36
16 20.0
59 48.7
2.15
L. 2 51.7
2.07
30.5
16 39.6
61 1.1
0.88
n.l4 6.6
2.27
16 12.8
59 22.0
2.28
U. 15 16.5
2.07
31.0
16 36.2
60 48.5
1.21
L. 2 33.3
2.18
16 5.1
58 54.0
2.36
L. 3 41.7
2.08
31.5
16 31.7
60 32.1
—1.50
U. 14 59.1
2.12
15 67.2
58 25.5
—2.38
U.16 6.6
2.11
304
MOON, 1855.
FOR WASHINGTON MEAN
NOON AND BODNIGHT.
SEPTEMBER.
OCTOBER. 1
Dale.
Samidi-
anieter.
Hor. PM.
Hourly
Diff.
Meridiaa
Tranalu
Hourly
Diff.
m.
i)emidi-
aineter.
Hor. Pw.
Hourly
Diff.
Meridiaa
Transit.
Hoorty
Diff
d.
1 M
1 11
H
h. ra.
1 n
/ II
II
h. m.
m-
1.0
15 49.4
57 57.0
—2.36
L. 4 32.0
2.13
15 22.8
56 194
—2.02
L. 5 2.6
2.29
1.5
15 41.8
57 29.1
2.29
U.16 57.8
2.16
15 164
55 55.8
1.88
U.17 30.1
2.28
20
15 34.4
57 2.1
2.19
L. 5 23.9
2.19
15 10.5
55 34.2
1.71
L. 5 57.2
2.24
2.5
15 27A
56 36.5
2.06
U.17 50.4
2.22
15 5.2
55 14.9
1.51
U.18 23.8
2.19
3.0
15 20.9
56 12.7
1.91
L. 6 17.2
2.23
15 0.6
54 58.0
1.31
L. 6 49.7
2.14
3Ji
15 15.0
55 50.7
1.76
U. 18 44.0
2.23
14 56.6
54 43.6
1.10
U. 19 15.0
2m
4.0
15 9.6
55 30.6
\^9
L. 7 10.8
2.22
14 53.3
54 31.6
0.91
L. 7 39.6
2.02
4.5
15 4.6
55 12.7
1.41
U. 19 374
2.20
14 50.7
54 21.7
0.72
U.20 3.3
1.95
5.0
15 0.2
54 56.9
1.24
L. 8 3.7
2.17
14 48.6
54 14.2
0.52
L. 8 26.3
139
5.5
14 56.4
54 43.0
1.07
U.20 29.5
2.13
14 47.2
54 9.0
0.35
U.20 48.5
1.83
6.0
14 53.3
54 31.2
0.90
L. 8 54.8
2J0S
14 46.3
54 6.0
-0.17
L. 9 10.1
1.78
6.5
14 50.6
54 21.4
0.73
U.21 194
2.02
14 46.0
54 5J0
-H).00
U.21 31.1
1.74
7.0
14 48.4
54 13.5
0.58
L. 9 43.3
1.96
14 46.3
54 5.9
0.15
L. 9 51.7
1.70
7JS
14 46.7
54 7.4
044
U.22 6.5
1.90
14 47.1
54 8.6
0.29
U.22 11.9
1.67
8.0
14 45.5
54 3.0
0.30
L. 10 29.0
1.84
14 48.2
54 12.8
041
L.10 31.8
1.66
8.5
14 44.7
54 0.2
0.16
U. 22 50.8
1.79
14 49.8
54 18.5
0.54
U.22 51.7
1.66
9.0
14 44.4
53 59.0
—0.03
L. 11 12.1
1.75
14 51.8
54 25.7
0.65
L.11 11.6
1.66
9.5
14 44.5
53 59.4
-H).09
U.23 32.8
1.71
14 54.0
54 34.1
0.74
U.23 31.6
1.68
10.0
14 45.0
54 1.2
0.21
L.n 53.1
1.67
14 56.5
54 43.4
0.82
L.U 51.9
1.71
10.5
14 45.8
54 4.3
0.31
14 59.3
54 53.6
0.89
1 11.0
14 47.0
54 8.5
041
U. 0 13.1
1.65
15 24
55 4.8
0.97
u. 0 12.6
1.75
11.5
14 48.5
54 14.1
052
L. 12 32.9
1.65
15 5.8
55 16.9
1.05
L.12 33.8
1.79
12.0
14 50.4
54 21.0
0.63
U. 0 52.7
1.65
15 9.3
55 29.8
I.IO
u. 0 55.7
1J5
12.5
14 52 6
.54 29.1
0.73
L. 13 12.5
1.65
15 12.9
55 43.3
1.15
L. 13 18.3
1.92
13 0
14 55.1
54 38.4
0.83
U. I 32.5
1.67
15 16.7
55 574
\JStO
U. 1 41.8
1.99
■ 13.5
14 58.0
54 49.0
0.93
L. 13 52.8
1.71
15 20.7
56 12.0
1.24
L.14 6.2
2j08
1 14.0
15 1.3
55 0.9
IX)5
U. 2 13.6
1.75
15 24.9
56 27.1
1.29
U. 2 31.8
2.18
14.5
15 .VO
55 14.2
1.17
L. 14 35.0
1.81
15 29.3
56 42.8
1.33
L. 14 584
2.26
15.0
15 9.0
55 28.9
1.28
U. 2 57.1
1.88
15 33.7
56 59.1
1.88
U. 3 26.0
2M
15.5
15 13.5
55 45.0
140
L. 15 20.1
1.95
15 38.2
57 15.8
141
L. 15 54.5
240
16.0
15 18.3
56 2.5
1.52
u. 3 44.0
2.04
15 42.9
57 3SJ0
145
U. 4 23.7
2.45
16.5
15 23.4
56 S1.4
1.64
L. 16 9.2
2.13
15 47.7
57 50.6
148
L. 16 534
249
17.0
15 28.9
56 41.7
1.75
U. 4 35.1
2.22
15 52.6
58 8.5
1.49
U. 5 234
2.50
17.5
15 34.8
57 3.3
1.85
L.17 24
a.32
15 57.5
58 264
1.49
L. 17 534
2.49
18.0
15 40.9
57 26.0
1.93
U. 5 30.8
241
16 24
58 44.1
1.47
U. 6 23.1
2.45
18.5
15 47J
57 49.6
2.00
L. 18 0.1
248
16 7.2
59 1.5
1.43
L. 18 52.3
241
19.0
15 53.9
58 13 8
2.03
U. 6 30.2
2.53
16 11.8
59 18.3
1.86
U. 7 21.0
2.S6
19.5
16 0.6
58 38.3
2.04
L. 19 0.8
2.56
16 16.1
59 34.1
1.26
U 19 49.0
2.30
20.0
16 7.4
59 2.7
2.01
U. 7 31.6
2.57
16 20.0
59 48.3
1.11
U. 8 16.1
2J3
20.5
16 14.0
59 26.6
1.94
L 20 24
2.55
16 23.3
60 0.6
0.93
L.20 42.5
2.18
21.0
16 20.2
59 49^2
1.81
C. 8 32.8
2.51
16 26.0
60 10.6
0.72
U. 9 84
2.14
21.5
16 25.9
60 10.0
1.63
L. 21 2 7
2.46
16 28.0
60 17.9
048
L.21 33.8
2.11
22.0
16 30 9
60 28.3
1.40
u. 9 31.8
2.39
16 29.1
60 21.9
-1-0.20
U. 9 58.9
2.08
22.5
16 35.1
60 43 6
1.13
L.22 0.2
2^
16 29.3
60 22.6
—0. 9
L. 22 23.8
2M
23.0
16 38.3
60 55.3
0.82
U. 10 27.8
2.27
16 28.5
60 19.7
0.39
u. 10 48.7
2.08
23.5
16 40.3
61 ^1
0.47
L. 22 54.7
2.21
16 26.7
60 13.2
0.69
L. 23 13.8
2.10
24.0
16 41.1
61 6.5
-h0 09
U.ll 20.9
2.16
16 23.9
60 3.1
0.99
U.ll 39.2
2.12
24.5
16 40.8
61 53
—0.29
L. 23 46.7
2.13
16 20.2
59 494
1.27
1
25.0
16 39.2
60 59.4
0.67
16 15.6
59 32.6
1.51
L. 0 4.8
215 ;
25.5
16 36.4
60 49.0
1.05
U. 12 12.2
2.11
16 10.3
59 13.2
1.72
u. 12 30.9
2.19 1
26X)
16 32 4
60 34.4
1.38
L. 0 37.5
212
16 4.3
58 514
1.90
L. 0 57.6
2.94 1
26.5
16 27.4
60 16.0
1.67
U.13 2.9
2.12
15 57.8
58 27.7
2.02
U. 13 24.9
2.29
27.0
16 21.5
59 54.4
1.92
L. 1 284
2.13
15 51.0
58 3.1
2.08
L. 1 52.7
233
27.5
16 14.9
59 30.0
2.12
U. 13 54.2
2.16
15 44.1
57 37.9
2.12
U. 14 20.8
2.35
28.0
16 7.7
59 3.5
2.26
L. 2 20.2
2.18
15 37.2
57 12.3
2.12
L. 2 49 1
2.37
28.5
16 O.I
58 35.8
2.34
U. 14 46.6
2.20
15 304
56 47.1
2.06
U.15 17.5
2.36
29.0
15 52.3
58 7.5
2.37
L. 3 13.2
2.22
15 23.8
56 22.9
1.96
L. 3 45.6
2.33
29 JS
15 44.5
57 39.1
2 35
U. 15 40.2
2.26
15 17.5
56 0.2
1.82
u.16 13.3
2.29
S0.0
15 36.9
57 11.2
2.28
L. 4 7.5
2.28
15 11.7
55 39.2
1.67
L. 4 40.4
2.23 1
30.5
15 29.7
56 44.5
2.16
U.16 35.0
2.30
15 6.5
55 20.0
IM
u.17 6.8
2.17
31.0
15 22.8
56 19.4
2.02
L. 5 2.6
2.29
15 1.9
55 3.0
1.32
U 5 32.3
2J0I9
31.5
15 16.4
55 65.8
—1.88
IT.17 30.1
2.28
14 57.9
54 48.5
— l.U
u.17 57.0
2.03
MOON, 1855.
305
FOR WASHINGTON MEAN NOON AND MIDNIGHT.
NOVEMBER. 1
DECEMBER.
Dttla.
ameier
Hor. Far.
Hourly
Diflf.
Meridian
Traiwli.
Hourly
DiflT
m.
Semldi-
aiiMier.
1 M
Hor.Fkr
Hourly
Meridiaa
Hourly
Diff.
cL
1 M
1 H
H
h. m.
1 n
u
tL m.
m.
IX)
14 54.6
54 36.4
—0.91
L. 6 20.9
1.95
14 48.8
54 14.8
— 0X)2
L. 6 24.3
1.68
1^
14 52.0
54 26 7
0.71
U.18 43.8
1.88
14 49.1
54 15.9
-H)JM)
U. 18 44.3
1.64
20
14 50.1
54 19.5
0.49
L. 7 5.9
1.81
14 50.1
54 19.7
042
L. 7 4.0
1.62
2.5
14 48.8
54 14.9
0.27
U. 19 27.4
1.76
14 51.8
54 26.1
0.63
u. 19 23.7
1.63
3.0
14 48.2
54 12.8
—0.07
L. 7 48.3
1.72
14 54.2
54 34.9
0.83
L. 7 43.5
1.66
SA
14 48.3
54 13.0
-H).ll
U.20 8.8
1.69
14 57.3
54 46.0
1.01
U.20 3.6
1.68
4.0
14 49.1
54 154
0.30
L. 8 29.0
1.67
15 0.9
54 59.3
1.19
L. 8 24.0
1.72
4.5
14 50.5
54 20.1
0.49
U. 20 48.9
1.65
15 51
55 14.5
1.34
U.20 44.8
1.77
5.0
14 52.3
54 27.0
0.66
L. 9 8.7
1.65
15 9.7
55 314
147
L. 9 6.5
1.83
5.5
14 54.6
54 35.8
0.80
U.21 28.6
1.66
15 14.7
55 49 6
1.56
U.21 29.0
1.91
6.0
14 57.3
54 46.1
0.94
L. 9 48.7
1.68
15 19.9
56 88
1.62
L. 9 524
2.00
6.5
15 0.5
54 58.0
1.05
U.22 9.1
1.72
15 25.2
56 28.5
1.66
U.22 17.0
210
7.0
15 4.1
55 11.2
1.13
L. 10 30.0
1.77
15 30.6
56 48.5
1.67
L. 10 42.7
2.19
lA
15 7.9
55 25.2
1.19
U.22 51.6
1.83
15 36.1
57 8.5
1.66
U.23 9.7
2.30
Bjo
15 11.9
55 39.7
1.24
L.11 14.0
1.90
15 41.5
57 28.2
1.61
L. 11 37.8
2.39
SA
15 16.1
55 54.8
1.28
U.23 37.2
1.97
15 46.7
57 47.1
1.53
9.0
15 20.4
56 10.5
1.31
15 51.5
58 4.8
141
U. 0 7.1
248
9.5
15 24.7
56 26.1
1.29
L. 12 1.4
2.06
15 55.9
58 20.9
1.28
L. 12 37.3
2.54
10.0
15 28.9
56 41.5
1.27
U. 0 26.7
2.15
15 59.9
58 354
1.14
u. I 8.0
2.57
10.5
15 33.0
56 56.7
1.26
L. 12 53.2
2.23
16 3.5
58 48.3
1.00
L. 13 39.0
2.58
11.0
15 37.1
57 11.7
1.23
U. 1 20.5
2.32
16 6.5
58 594
0.83
u. 2 9.9
2.56
11.5
15 41.0
57 26.2
1.18
L. 13 48.9
240
16 8.9
59 8.3
0.65
L.14 404
2.51
12.0
15 44.8
57 40.0
1.13
u. 2 18.1
246
16 10.7
59 15.2
049
U. 3 10.2
2.45
12Ji
15 48 4
57 53.2
1.08
L. 14 47.9
2.50
16 12.1
59 20X)
0.31
L. 15 39.2
2.37
13.0
15 51.8
58 5.9
1.03
U. 3 18.0
2.52
16 12.9
59 22.7
+0.14
U. 4 7.1
2.28
13.5
15 55.1
58 17.9
0.96
L. 15 48.2
2.51
16 13.1
59 23.5
—0.00
L. 16 33.9
2.19
14.0
15 58.2
58 29.0
0.90
U. 4 18.1
247
16 12.8
59 22.6
0.13
U.4 59.8
2.13
14.5
16 1.1
58 39.5
0.85
L. 16 47.5
242
16 12.2
59 204
0.23
L. 17 25.0
2.07
15.0
16 3.7
58 49.2
0.77
U. 5 16.1
2.35
16 11.3
59 16.9
0.33
U. 5 49.5
2.02
15.5
16 6.1
58 58X)
0.70
L. 17 43.9
2.28
16 10.0
59 12.3
0.43
L. 18 13.6
1.99
16.0
16 8.3
59 6.1
0.64
U. 6 10.8
2.21
16 84
59 6.6
0.52
U. 6 37.3
1.96
16.5
16 102
59 13.2
0.55
L. 18 37.0
2.15
16 6.5
58 59.9
0.59
L.19 0.8
1.96
17.0
16 119
59 19.2
0.46
u. 7 2.5
2.09
16 4.5
58 52.4
0.66
U. 7 244
1.97
17.5
16 13.3
59 24.1
0.35
L. 19 27.4
2.05
16 2.3
58 44.0
0.74
L. 19 48.2
1.99
ISJO
16 14.2
59 27 J>
0.21
u. 7 51.8
2.02
15 59.8
58 34.8
0.80
U. 8 12.3
2.03
18.5
16 14.7
59 29.4
-1-0.09
L. 20 15.9
2.01
15 57.0
58 24.7
0.87
L. 20 36.9
2.07
19.0
16 14.8
59 296
—0.06
u. 8 40.0
2.01
15 54.0
58 13.8
0.94
U. 9 2.1
2.13
19.5
16 14.3
59 27.9
0.23
L, 21 4.2
2.02
15 50.8
58 2.1
1.02
L.21 28.0
2.18
20J0
16 13.3
59 24.0
0.41
U. 9 28.5
2.03
15 474
57 49.5
1.09
U. 9 54.6
2.24
20.5
16 11.6
59 17.8
0.61
L. 21 53.1
2.07
15 43.7
57 36.0
1.16
L. 22 21.8
2.29
21.0
16 9.3
59 9.3
0.80
u. 10 18.3
2.12
15 39.7
57 21.6
1.23
U. 10 49.6
2.34
21.5
16 6.4
58 58.6
0.98
L. 22 44.0
2.17
15 35.6
57 6.5
1.29
L. 23 17.9
2.37
22.0
16 2.8
58 45.7
1.17
U.ll 10.5
2.23
15 31.3
56 50.7
1.34
U.U 46.3
2.37
22.5
15 58.6
58 30.7
1.33
L. 23 37.6
2.29
15 26.9
56 34.5
1.36
23.0
15 53.9
58 13.8
1.48
15 224
56 18.1
1.38
L. 0 14.6
2.35
23.5
15 48.9
57 55.2
1.61
n.l2 5.3
2.33
15 17.9
56 1.6
1.36
U. 12 42.6
2.31
24.0
15 43.5
57 35.3
1.70
L. 0 334
2.36
15 13.6
55 45.5
1.31
L. 1 10.1
2.26
24.5
15 37.9
57 146
1.74
U.13 1.9
2.38
15 94
55 30.1
1.25
U. 13 36.9
2J0
25.0
15 32.1
56 53.6
1.75
L. 1 30.5
2.38
15 5.3
55 15.3
1.19
L. 2 2.8
2.12
25.5
15 26.3
56 32.6
1.74
U. 13 59.1
2.37
15 14
55 1.5
1.11
U. 14 27.8
2.04
26.0
15 20 7
56 11.9
1.70
L. 2 27.4
233
14 57.9
54 48.7
1.01
L. 2 51.8
1.96
26.5
15 15.3
55 52.0
1.61
U. 14 55.0
2.27
14 54.9
54 37.5
0.86
U.15 14.9
1.89
27.0
15 10.2
55 33.4
1.49
L. 3 21.8
2.20
14 524
54 28.1
0.70
L. 3 37.1
1.83
27.5
15 5.5
55 16.3
1.35
U. 15 47.7
2.12
14 504
54 20.8
0.53
U. 15 58.6
1.76
28.0
15 1.3
55 0.9
1.21
L. 4 12.6
2.03
14 48.9
54 15.5
0.36
L. 4 194
1.71
28.5
14 57.6
54 47.2
1.05
U. 16 36.5
1.96
14 48.0
54 12.3
—0.17
U.16 39.7
1.67
29.0
14 54.5
54 35.7
0.86
L. 4 59.5
1.89
14 47.7
54 11.5
+0.03
L. 4 59.6
1.63
29.5
14 52.0
54 26.7
0.64
U.17 21.7
1.82
14 48.1
54 13.1
0.23
U.17 19.1
1.62
30.0
14 50.3
54 20.3
0.43
L. 5 43.2
1.76
14 49.3
54 17.2
045
L. 5 38.6
1.62
30.5
14 49.2
54 16.3
0.23
U.18 4.0
1.71
14 51.2
54 23.9
0.67
U. 17 58.2
1.64
31.0
14 48.8
54 14.8
—0.02
L. 6 24.3
1.6S
14 53.8
54 33.3
0.89
L. 6 18.0
1.66
31.5
14 49.1
54 15.9
-H).20
u. 18 44.3
1.64
14 57.2
54 454
+1.12
U. 18 38.2
1.70
39
306
MOON, 1855.
WASHINGTON MEAN TIBIE.
PHASES.
Month.
PuU Moon.
LaslQuMtor.
New Moon.
Pint Quarter.
Pull Mooo.
Un Quarter.
d h. m.
d. h. m
d. h m
d h m.
January
2 15 11.4
10 19 5.9
17 15 29.7
24 8 31.1
February
1 10 33.7
9 9 52.8
16 1 39.7
23 0 26.1
March
3 6 0.3
10 10 51.8
17 11 37.5
24 18 17.7
April
1 21 20.7
9 4 28.3
15 21 56.7
23 12 49.4
d. h. m
May
1 10 55.3
8 9 53.7
15 9 5.1
23 6 54.0
30 21 39.7
June
6 14 40 1
13 21 20.6
21 23 44.2
29 6 5.8
July
5 20 20.5
13 7 53.3
21 14 43 6
28 13 13 8
August
4 4 13.8
12 1 46.2
20 3 27.5
26 20 14.2
September
2 15 16.9
10 17 45.7
18 13 54.2
25 4 18.2
October
2 5 57.8
10 10 17.7
17 22 31.1
24 14 19.7
d.
h m.
Novennber
1 0 9.6
9 2 23.8
16 6 7.1
23 2 43.5
30 21 3.6
December
8 17 10.1
15 13 48.7
22 17 31.3
30
18 56.6
APO
GEE, PERI
GEE.
Month.
Perigee.
Apojee
Oreeteet Libntkm.
ApofM.
8. E
aw
S
B
.1 h
d. h
d. h.
d. h. m.
d. h. m.
January
4 17.7
17 21.6
31 18.9
12 1 5
23 22 51
February
15 9.4
28 3.0
9 2 26
21 5 3
March
15 18.5
27 18.4
9 1 0
21 10 20
April
12 13 4
24 12.9
4 22 12
18 7 1
d.
h m
May
8 7.4
22 8.3
1 6 16
15 13 28
28
12 34
June
3 8.4
19 1.4
10 21 24
25
8 39
July
1 2.2
16 15.0
7 16 52
23
11 12
July
29 7.9
1
A ugust
13 0.0
26 17.2
4 11 21
20
15 48
September
9 3.2
24 2.7
1 15 34
17
17 6
September
29 22 21
October
6 11.7
22 8.2
15 4 48
28 2 19
November
3 4.0
18 18.9
10 12 43
24 21 11
December
1 1.3
13 11.5
28 21.7
7 7 6
21 18 26
MOO
N'S EQUA
TOR.
The moon^s libration in latitude and longitude, at any time, may be foaod by meant of
the following formulas and tables.
/>« the inclination of the moon*8 equator 21^ 28'.8,
Q «» mean longitude of moon *8 ascending node (see page 221),
C >« the angle which the mean meridian of the moon*s disc makes with the circle of dec-
li nation reckoned from north to west on the apparent disc.
X, ^, a', and d' the apparent longitude, latitude, right asceusion, and deelinatioo of the moon
affected with parallax.
AX — 0'.57sin2(X — Q),
a >« cos (Q — X) sin 7,
tao B — sin (Q — X) tan i.
In these formolas, the tables p. U of the Appendix may be substituted.
The libration in latitude wm^wm B — /9.
The libration in longitude >->/»«X-f-AX-|-a& — C-
cos d' coi 6
MOON, 1855.
307
ll
WASHINGTON MEAN TIBiE.
MOON'S EQUATOR. 1
Sidcml
Data
Ok.
t
IncHrMtion to
the £irth'«
Eiuaior.
A
AsMndin^ Node on
Earth's Equator
to Atceiidin^ Node oa
EclipUc
0'
Aaceridhif Node
on Eanh'f
Equator.
Moon'« Mean
Loagiiude.
d.
0
22 31.6
232 14.6
357 3.6
68 55.6
10
22 30 9
231 41.9
357 4.9
200 19.8
20
22 30.2
232 8.9
357 6.3
331 44.1
30
22 29.6
230 36.0
357 7.8
103 83
40
22 29.0
230 3.0
357 9.2
234 31.6
50
22 28.4
229 30.0
357 10.5
5 56.8
60
22 27.9
228 57.1
357 11.9
137 21.1
70
22 27.3
228 24.2
357 13.2
268 45.3
80
22 26.6
227 51.2
357 14.6
40 9.6
90
22 26.0
227 18.3
357 16.1
171 33.8
100
22 25.3
226 45.3
357 17.6
302 58.1
110
22 24.7
226 12.2
357 19.0
74 22.3
120
22 24.1
225 39.1
357 20 5
205 46 6
130
22 23.6
225 6 0
357 22.0
337 10.8
140
22 23.0
224 32.9
357 23.5
108 35.0
150
22 22.4
223 59.9
357 25 0
239 59.3
160
22 21.9
223 26.8
357 26.6
11 23.5
170
22 21.4
222 53.6
357 28.2
142 47.8
180
22 20.8
222 20.4
357 29.8
274 12.0
190
22 20.2
221 47.3
357 31.4
45 36.3
200
22 19.7
221 14.1
357 33.0
177 0.5
210
22 19.2
220 40.9
357 34 6
308 24.8
220
22 18.6
220 7.7
357 36.2
79 49.0
230
22 18.0
219 34.5
357 37.9
211 13.2
240
22 17.5
219 1.3
357 39.6
342 37.5
250
22 17.0
218 28.1
357 41.3
114 1.8
260
22 16 5
217 54 8
357 43.0
245 26.0
270
22 16.1
217 21.5
357 44.7
16 50.3
280
22 15.7
216 48.2
357 46.4
148 14.5
290
22 15.2
216 15.0
357 48.1
279 38.8
300
22 14.7
215 41.8
357 49 8
51 3.0
310
22 14.2
215 8.5
357 51.5
182 27.1
320
22 13.7
214 35.0
357 53.3
313 51.3
330
22 13.4
214 1.6
357 55.1
85 15.6
340
22 12.9
213 28.3
357 57.0
216 40.8
350
22 12.4 t
212 55.0
357 58 8
348 4.0
360
22 U.Q
212 21.7
358 06
119 28.3
370
22 11.4
211 48.4
358 2.4
250 52.5
308
MERCURY, 1855.
For Waahiiiftnn Mean Noon artd Meridian Tranail.
1
MMaSnUrTlmeof
M«ridteoTnui«ii.
Side.
reiU
Apparem
Right Aacenaion.
Lof. OoetDcient of/.
Loc. CueAciam ||
of/t. II
At
Mean Noon.
At
Traiwlt-
At
Mean Noon.
At
TranaiU
InR.A.
In Dee.
IqRA.
In Dec
d.
h. m.
h. m. «.
m. a.
O 1 II
1 M
Jan. 0 23 14.7
0
17 51 31.82 58 1.87
-24 5 43.3
13 444
+9.44543
-9.51389
+3.756 +5.255 ||
23 17.6
1
17 58 14.58^64 47.64
24 12 56.6
18 45.1
944790
9.43890
3.736
5.260
3
23 WA
2
18 4 59.60 1135.58
24 18 54.5 23 29.1
945027
9J14625
3.717
5.266
3
23 23.4
3
18 1146.78118 25.59
24 23 35.8 26 55.2
945252
9.22617
3.696
5.269
4
23 26.3
4
18 18 36.02 25 17.58
24 26 594 29 1.7
9.45466
9.05622
3.674
5.281
5
23 29.3
5
18 25 27.22 33 11.43
24 29 3.7J29 474
9.45666
8.76592
3.647
5.288:
6
23 32.2
6
18 32 20.26 39 7.01
24 29 47.5,29 11.2
945854
-7.31876
3.618
5.293
7
23 35.2
7
18 39 15.02 46 4.23
24 29 9.7 27 12X)
946028
+8.73982
3.594
5;S49
8
23 38.3
8
18 46 11.41
53 2.98
24 27 9.2 23 48.5
946192
9.05223
3.561
5.306
9
23 41.3
9
18 53 9.31
60 3.15
24 23 44.8 1 18 59.7
946344
9.23416
3.528
5.312
10 S3 44.4
10
19 0 8.61
7 4.64
24 18 554
13 44Ji
946483
9.36330
3493
5.317
U
23 47.5
11
19 7 9.20
14 7.34
24 12 40X)
5 3.0
9.46612
946365
3465
5.321
12 23 50.6
12
19 14 11.00 21 11.10
23 64 57.8|55 514
946728
9.54596
3.403
5-327
13 23 53.8
13
19 21 13.85
28 15.83
23 55 47.5
45 11.6
946832
9.61579
3.364
5.329
14
23 56.9
14
19 28 17.66
35 2141
23 45 8.7
33 1.9
946924
9.67644
3.312
5.335
15
19 35 22J2
23 33 0.2
947005
9.73021
3.239
5.339
16
0 0.1
15
19 42 27.70
42 27.73
23 19 21.2
19 31.1
947073
9.77835
3.181
5.341
17
0 3.3
16
19 49 33.71
49 34.69
23 4 11.3
4 9.1
9.47131
9.82201
3.081
5.345
18
0 6.4
17
19 56 40.22
56 42.15
22 47 29.6
47 34.9
947175
9.86188
2.938
5;S46
19
0 9.7
18
20 3 47.09
3 49.99
22 29 15.9
39 8.3
947206
9.89866
2.780
5.352
20
0 12.9
19
20 10 .^4.21
10 58X)4
22 9 29.0
9 18.0
947223
9.93274
+2 336
5.351
21
0 16.0
20
2018 1.42
18 6.20
2148 9J0
47 54.8
947227
9.96441
-1.382
5.353
22
0 19.3
21
20 25 8.62
25 14.35
21 25 15.5
34 56.5
947218
9.99399
2.613
5.353 1
23
0 22.4
22
20 3215.65
32 22.31
21 0 48.5
0 25X)
9.47192
0X)2179
2.938
5.353 1
24
0 25.6
23
20 39 22;t2
39 29.91
20 34 47.3 34 18.7
947147
OXH790
3.005
6352
25
0 28.8
24
20 46 28.47
46 36.98
20 7 12.7 6 38.7
947086
0X)7292
3.215
6352
26
0 31.9
25
20 53 33.94
53 43.37
19 38 4.6 37 24.9
947005
0.09558
3.336
5350 1
27
0 35.1
26
21 0 38.51
0 48.85
19 7 23.7 6 37.7
946900
0.11739
3447
5346
28
0 38.2
27
21 7 41.92
7 53.15
18 35 10.8 34 18.3
9.46765
0.13803
3.544
5341
29
0 41.4
28
21 14 43.88
14 65.99
18 1 27X) 0 27.5
946601
0.15729
3.620
5333'
f ^
0 44.4
29
212144.11
21 57.05
17 26 13.8125 7.3
946405
0.17543
3.698
5322 1
f 31
0 47.5
30
21 38 42.27
28 56X)2
l6 49 33Ji 48 19.5
9.46171
0.19262
3.770
5317
F«b. 1
0 50.5
31
21 35 37.99
35 52.52
16 11 27.1 1 10 5.5
945887
0.20844
3.858
5.292
2
0 53.4
32
21 42 30.72
42 45.96
15 31 594,30 30.2
945546
0.22304
3.926
5.275
8
0 56.3
33
31 49 19.95
49 35.87
14 51 13.5 49 36.6
9.45141
0.23591
3.998
5.248
4
0 59.1
34
31 56 5.05
.^6 21.58
14 9UJ0 7 294
944658
0.24805
AJOIQ
6.225
5
1 1.9
35
33 3 45.38
3 2.36
13 26 6.5 24 14.2
944087
0.35880
4.134
6.168 ;
6
1 4.5
36
33 9 19.83
9 37.39
12 41 57.9,39 58.3
9.43420
0.26820
4.206
5.109!
7
1 7.0
37
33 15 47.77
16 5.65
1156 56.0,54 49.5
942620
0.27602
4.271
5.024'
8
1 9.5
38
33 33 7.94
22 26.08
11 11 10.3
8 573
941662
028210
4.338
4.902 1
9
1 11.7
39
33 38 19.07
28 37.30
10 24 51.5
22 32.5
940526
0.28641
4JI99
4.700
10
1 13.8
40
33 34 19.81
34 38.00
9 38 11.9
35 48.5
9.39183
0.28856
4460
+4.175
11
1 15.6
41
33 40 8.59 40 36.56
8 51 26.1
49 0.2
9-37586
0.28829
4486
-4.407,
12
1 17.3
42
33 45 43.66
46 1.24
8 4 50.9
2 21.8
9.35690
0.28549
4.575
4.815 .
13
1 18.7
43
33 51 3.15
51 20.14
7 18 42.8
16 12.8
9.33435
0.28009
4.627
5.058;
14
1 19.7
44
33 56 5J05
56 21.23
6 83 22.1
30 534
940754
0.27084
4.676
5.215
15
1 20.5
45
33 0 47.38
1 246
5 49 9.5
46 43.8
9.27552
0.25781
4.724
5340
16
1 20.9
46
33 5 7.63
5 21.59
5 6 27.6 > 4 6.9
9.23712
0.24043
4.764
5.4.39
17
1 20.8
47
33 9 3.87
9 1641
4 25 39.6123 26.1
9.19072
0.21802
4.802
5.522
18
1 20.4
48
83 13 33.84 13 44.79
8 47 9.7
45 5.2
9.13405
0.18971
4.835
5.592
19
1 19.4
49
33 15 3545 15 44.63
31132.0
9 28.7
9.06360
0.15439
4.863
5.651
20
1 18.0
50
33 18 6.77,18 14.11
2 38 40.2
36 59.5
8.97368
0.11054
4.887
5.704
21
1 16.0
51
33 30 6.13 30 11.56
2 9 28.1
8 1.7
8.85388
0X)5574
4.905
5.744
22
1 13.5
52
33 3133.18 3135.70
144 5.8 42 54.5
8.68011
9.98684
4.916
5.781
23
1 10.4
53
33 33 34X>i;33 35.70
1 23 54.1 31 58.5
+8.37933
9.89786
4.922
5308!
24
1 6.7
54
33 33 41.17,22 41.16
1 6 9.3 5 39.3
-5.92082
9.77840
4.931
5330 1
25
1 2.4
55
23 22 23.77 22 22.28
0 54 5.1 53 40.0
8.37744
9.60469
4.913
5344
26
0 57.6
56
23 21 3248 21 29.78
0 46 50.3 46 38.8
8.67210
+9JI0073
4.891
5.850
27
0 53.3
57
23 20 8.88 20 5.28
0 44 39.5
44 29.7
8.83651
-7.58983
4.863
5349
28
0 46.4
58
23 18 15.08 18 10.96
0 47 1.6
47 11X)
8.94846
9.30873
4.819
5339
Mar. I
0 40.2 59
23 15 53.96' 15 49.68
- 0 54 19.7
54 35.7
-9X)2776
-9.6007^
-4.759
-5317
MERCURY, 1855.
309
Bfeftn Solar Time of
Meridian Tnuwiu
Side-
real
Dttie.
Ri?hiASSiloa.
Apparent Dediaattoo.
Log. Coefficient off.
Log. Coefficient 1
of 12. 1
At
Al
Al
Al
InR.A.
Id Dec.
In R.A.
In Dec.
Mean Noon.
TYaiieil.
m. s
Mea.) Noon.
Tnuwii.
d
h. m.
h. m. a.
O 1 M
1 n
Mmt. 2
0 33.5
60
23 13 9.05
13 4.91
-1 6 10.2
6 30.0
-9.08558
-9.76421
-4.676
-5.784
3
0 26.4
61
23 10 4.48
10 0.94
1 22 13.2
22 334
912655
9.87361
4.559
5.738
4
0 19.2
62
23 6 44.89
6 42.17
142 3.1
42 20.6
9.15415
9.95152
4.386
5.674
5
0 11.8
63
23 3 15.20
3 13.52
2 5 9.0
5 21.3
9.16991
0.00792
4.075
5.590
6
0 4.2
64
22 59 40.58
59 39.94
2 30 56.2
31 1.0
9.17476
0.04814
-2461
6473
6
23 56.7
65
56 6.31
58 42.7
7
23 49.3
66
22 56 5.84
52 3742
2 58 46.7
27 49.6
9.17000
0.07550
+4.058
5.816
8
23 42.0
67
22 52 35.84
49 17.55
8 28 3J0
57 43.1
9.15537
0.09196
4.348
5.051
9
23 34.9
68
22 49 15.09
46 10.55
3 58 6.0 87 47.8
9.12094
0.09891
4498
-4.407
10
23 28.1
69
22 46 7.40
43 19.53
4 28 19.6
57 32J2
9.09684
0.09759
4.592
+4.715
11
23 21.6
70
22 43 15 94
40 47.34
4 58 11.7
86 264
9.05181
0.08869
4.662
5.096
12
23 15.5
71
22 40 43.54
38 35.79
5 27 12.1
54 6.2
8.99441
0.07270
4.703
5.263
13
23 9.7
72
22 38 32.07
36 46.40
5 54 56.5
80 11.3
8.92231
o.awu
4.733
5.367
14
23 4.4
73
22 36 43.02
35 20.07
6 21 4.3
44 25.3
8.83029
0.02099
4.749
5.435
15
22 59.4
74
22 35 17.23
34 17.17
6 45 19.2
66 35.7
8.71070
9.98537
4.756
5480
16
22 54.8
75
22 34 15.07
33 37.72
7 7 28.9
26 33.5
8.54347
9.94294
4.756
5.509
17
22 50.6
76
22 33 36.56
33 21.49
7 27 24.6
44 12.9
8.27075
9.89306
4.749
5.528
18
22 46.8
77
22 33 21.34
33 27.90
7 45 0.3 59 30.2
-742710
9.83468
4.739
5.538
19
22 43.3
78
22 33 28 86
33 56.10
8 012.9 12 23.9
+8.10717
9.76602
4.721
5.543
20
22 40.3
79
22 33 58.21
34 45.21
8 13 0.8 22 54.1
8.44218
9.68412
4.705
5.541
21
22 37.5
80
22 34 48.59
35 54.31
8 23 24.5 31 2.1
8.62246
9.58382
4.683
5.537
22
22 35.0
81
22 35 58.95
37 22.41
8 31 254
36 49.5
8.74391
945495
4.660
5.531
23
22 32.9
82
22 37 28.29
39 8.41
8 37 5.5
40 19.5
8.83406
9.27509
4.634
5.520
24
22 31.0
83
22 39 15.49
41 11.33
8 40 28.1
41 35.7
8.90467
8.97294
4.609
5.511
25
22 29.4
84
22 41 19.54
43 30.09
8 41 36.1
40 41.2
8.96205
-7.23958
4.581
5.499
26
22 28.0
85
22 43 39.40
46 3.69
8 40 33.1
37 39.6
9.00975
+8.94303
4.553
5485
27
22 26.9
86
22 46 14.08
48 51.24
8 37 234
32 34.2
9.05008
9.24235
4.524
5475
28
22 26.0
87
22 49 2.61
51 51.84
8 32 9.9
25 29.3
9.08475
941363
4496
5459
29
22 25.2
88
22 52 4.14
55 4.63
8 24 57.0! 16 27.9
9.11487
9.53272
4467
5.447 i
80
22 24.7
89
22 55 17.82
58 28.91
8 15 47.9
5 34.0
9.14128
9.62361
4438
5.433
31
22 24.4
90
22 58 42.86
62 3.91
7 64 463
52 .50.3
9.16464
9.69630
4411
5420
Apr. 1
22 24.2
91
23 2 18.59
5 48.98
7 51 55.6
38 21.3
9.14425
9.75715
4.383
5.407
2
22 24.2
92
23 6 4.33
9 43.45
7 37 194
22 9.0
9.20418
9.80900
4.355
5.394
3
22 24.3
93
23 9 59.46
13 46.89
7 21 04
4 16.8
9.22105
9.85397
4.330
5.380
4
22 24.6
94
23 14 3.40
17 58.66
6 63 1.8
44 47.9
9.23630
9.89349
4.300
5.366
5
22 24.9
95
23 18 15.66
22 1848
6 43 26.8
23 44.8
9.25027
9.92868
4.282
5.355
6
22 25.5
96
23 22 35.86
26 45.78
6 22 17.9
1 10.0
9.26318
9.96040
4.259
5.343
7
22 26.1
97
23 27 3.59
3120.24
5 59 37.7
37 64
9.27504
9.98913
4.232
5.299
8
22 26.9
98
23 31 3840
36 1.65
5 35 29.0; 11 36.3
9.28606
0.01532
4.219
5.317
9
22 27.7
99
23 36 20.08
40 49.65
4 69 54.3
44 41.6
9.29624
0.03944
4.200
5.308 '
10 22 28.7
100
23 41 &33
45 43.98
4 42 55.2
16 25.2
9.30621
0.06170
4.180
5.293
11
22 29.8
101
23 46 2.86
50 44.50
3 74 34.7
46 48.7
9.31527
0.08224
4.170
5.283
12 22 30.9
102
23 51 3.53
55 51.04
3 44 54.7
15 55.1
9.32404
0.10133
4.160
5.268
13
22 32.2
103
23 56 10.20
1 3.50
2 73 57.8; 43 45.5
9.33244
0.11916
4.150
5.260
14
22 33.5
105
0 122.73
6 21.72
2 41 454
10 22.7
9.34051
0.13586
4.143
5.245
15
22 35.0
106
0 6 41.02
1145.64
1 68 20.0
35 48.2
9.348.32
0.15153
4.132
5.238
16 22 36.6
107
0 12 4.99
17 15.40
133 42.9
0 3.5
9.35591
0.16621
4.134
5.219
17
22 36J2
108
0 17 34.61
22 50.73
0 57 57.1
23 11.3
9.36339
0.18062
4.139
5.212
18 22 39.9
109
0 23 9.94
28 31.88
-0 21 3.7
14 46.2
9.37081
0.19303
4.141
5.196
19 22 41.8
110
0 28 51X)1
34 18.79
+0 16 54.8153 47.4
9.37814
0.20527
4.143
5.184
20 22 43.7
111
0 34 37.85
40 11.65
0 55 56.6 '93 50.3
9.38541
0.21679
4.146
5.167
21
22 45.7
112
0 40 30.49
46 1047
1 35 59.3 74 53.0
9.39265
0.22769
4.160
5.157
22 22 47.9
113
0 46 29.13
52 1544
2 17 1.6 56 52.9
9.39872
0.23794
4.167
5.135
23
22 50.1
114
0 52 33.86
58 26.69
2 59 0.5 99 47.3
940732
0.24752
4.179
5.119
24
22 52.4
115
0 58 44.86
64 4447
3 41 53.9
83 34.1
941478
0.25651
4.193
5.090
25
22 54.9
116
1 5 2.33
11 8.94
4 25 39.3
68 11.0
942234
0.26489
4.206
5.074
26 22 57.5
117
1 U 26.46
17 40.33
5 10 13.9
53 35.9
942998
0.27265
4.218
5.040
27
23 0.2
118
117 5745
24 18.85
5 55 35.0
99 43.6
9.43772
0.27982
4.233
5.018
28 23 3.0
119
124 35.53
31 4.75
6 41 39.3
86 31.1
9.44558
0.28629
4.247
4.977
29
23 5.9
120
1 31 20.94 37 58.36
7 28 22.9
73 54.8
945360
0.29210
4.265
4.935
80
23 9.0
121
138 13.98144 59.82
+8 15 42.2
61 51.1
+9.46173
+0.29728
+4 276
+4.885
310
MERCURY, 1855.
For Waehingum Mean Noon and Meridian Transit.
MMnSnUrTimeor
Meridian Trmnaiu
Side-
reel
Deie
Apparenl
Righi Aacenelon.
Apparent DedinaUon.
Log. Coefficient oft.
Log. CoeAcietU
0(ti.
Al
Mean .Noon.
Al
Trauafl.
At
Mean Noon.
At
TraneiL
InR.A.
In Dec
InRA.
In Dec.
d.
' h. m.
h. in. a.
m. s.
O i II
1 M
1
Maj 1
23 12.2
122
1 45 14.86
52 9.48
+ 9 333.3
50 12.9
f9.46996
+0.30157
+4.291
+4.782
3
23 15.6
123
1 52 23.85
59 27.46
9 51 49.5
98 56.7
9.47823
0.30507
4.298
4.713
3
23 19.0
124
1 59 41.07
66 53.99
10 40 27.1
87 55.3
9.48654
0.30774
4312
4341 :
4
23 22.7
125
2 7 6.80
14 29.39
1129 19.1
77 2.2
9.49494
0.30935
4322
4457 1
5
23 26.4
126
2 14 41.23
22 13.49
12 18 18.6
66 10.1
9.50326
0.30996
4324 +3.160 1
6
23 30.4
127
2 22 24.40
30 6.60
13 7 18.7
55 9.9
9Jill50
0.30935
4328
-4322
7
23 34.4
128
2 30 16.39
38 8.49
13 56 10.1
103 52.1
9J^1958
0.30739
4324
4333
8 23 38.6
129
2 38 17.12
46 19.12
14 44 43.7
92 6.9
9.52741
0.30399
4317
4.825
9
23 43.0
130
2 46 26.46
54 38.26
15 32 49.6
79 43.8
9.53495
0.29899
4.300
4.971
10 23 47.5
131
2 54 44.19
63 5.49
16 20 16.7
66 29.9
9.54211
4.285
5.083;
11
23 52.1
132
3 3 9.92
1140.49
17 6 53.6
52 13.3
9.54876
0.28345
4.256
5.177 ,
12 23 56.8
133
3 1143.13
20 21.94
17 52 28.1
96 41.9
9Ji5481
0^7252
4.216
5357 1
13
3 20 23.16
18 36 47.7
9.56017
0.25931
4.161
5321 1
14
0 1.6
134
3 29 9.20
29 9.79
19 19 40.5
19 43.3
956475
0.24345
4.089
5386
15
0 6.5
135
3 38 0.33
38 2.74
20 0 52.6
1 3.5
9.56847
0.22484
3.984
5.427
16
0 11.5
136
3 46 55.46
46 59.74
20 40 13.7
40 32.1
9.57123
0.20331
3331
5.472 1
17
0 16.5
137
3 55 53.40
55 59.58
21 17 32.0
17 67X)
9.57302
0.17850
3389
5306
18
0 21.6
138
4 4 52 95
5 1.06
21 52 37.7
53 8^
9.57387
0.15020
+2.845
5331 !
19
0 26.6
139
4 13 52.79
14 2.77
22 25 22.0
25 56.9
9.57346
0.11810
-3.424
5352)
20
0 31.7
140
4 22 51.53 23 3.37
22 55 37.8
56 16.1
9.57203
0X)8121
3.771
5372
21
0 36.7
141
4 31 47.82 32 1.42
23 23 19.0
23 59.4
9.56954
0.04096
3.950
5381
22
0 41.6
142
4 40 40.40 40 55.73
23 48 22.6
49 4.4
9.56603
9.99515
4372
5384
23
0 46.5
143
4 49 28.09 49 45.04
24 10 47.0
1127.7
9.56150
9.94328
4.167
6390
24
0 51.2
144
4 58 9.68 58 28.07
24 30 30.1
31 9.4
9.55593
9.88437
4.244
5385
25
0 55.8
145
5 6 44.00
7 3.68
24 47 33.8
48 10.3
9.54939
9.81680
4J97
5382
26
1 0.3
146
5 15 10.10
15 31.11
25 159.0
2 31.9
9.54199
9.73822
4337
5370
27
1 4.7
147
5 23 27.18
23 49.38
25 13 50.1
14 18.4
9.53379
9.64510
4370
5359
28
1 8.8
148
5 31 34.53
31 57.56
25 23 11.1
23 34.2
9.52472
9.53042
4.408
5344'
29
1 12.9
149
5 39 31.26
39 55.11
25 30 6.9
30 24.2
9.51478
938072
4.431
5327
SO
1 16.6
150
5 47 16.79 47 41.24
25 34 43.2
34 54.2
9.50407
9.16262
4.453
5308
31
1 20.3
151
5 54 50.56 55 15.53
25 37 5.8
37 10.0
9.49265
-^8.68049
4465
5.486!
June 1
I 23.7
152
6 2 12.13 2 37.43
25 37 21.3
37 18.1
9.48046
-8.49292
4.485
5.463'
2
1 26.7
153
6 9 21.13 9 46.56
25 35 36.2
35 26.3
9.46747
9.05116
4.496
5.438 1
3
1 29.9
154
6 16 17.13 16 42.69
25 3157.3
3140.8
9.45371
9.27525
4307
5.412
4
I 32.7
155
6 22 59.79 23 25.27
25 26 31.3
26 6.8
9.43917
931694
4316
5383
5
I 85.2
156
6 29 28.84 29 54.04
25 19 25.0
18 53.5
9.42383
9.51650
4324
5352 1
6
1 37.5
157
6 35 44.02 36 8.84
25 10 45.3
10 7.0
9.40757
9.59223
4335
5321 {
7
1 39.6
158
6 4144.99 42 9.45
24 60 38.8
59 53.8
939035
9.65221
4.541
5.285
8
1 41.6
159
6 47 31.54|47 55.48
24 49 12.3
48 21.1
9.37215
9.70084
4.547
5347
9
1 4SJ0
160
6 53 3.47 -53 26.67
24 36 32.5
35 35.5
9.35280
9.74108
4.556
5308
10
I 44.3
161
6 58 20.46 58 42.87
24 22 45.7
2143.5
9.33222
9.77457
4361
5.162 1
11
1 45.4
162
7 3 22.35 3 43.88
24 7 58.6
6 51.8
9.31022
930263
4371
5.115
12
1 46.2 163
7 8 8.79 8 29.33
23 52 17.4
51 6.0
9.28664
9.82617
4377
5.061
13
1 46.8, 164
7 12 39.58 12 59.07
23 35 48ii
34 33.3
9.26122
9.84575
4387
4.998
14
1 47.1! 165
7 16 54.34 17 12.76
23 18 38.3
17 20.1
9.23376
9.86195
4391
4.931
15
I 47.2' 166
7 20 52.93 21 10X)8
22 60 52.7
59 32.0
9.20392
9.87514
4.602
4.849'
16
1 46.4 167
7 24 34.93 '24 50.79
22 42 37.8
41 15.4
9.17120
938551
4.608
4.740
17
1 46.4 168
7 28 0.09 28 14.62
22 24 0.1
22 36.7
9.13520
9.89322
4316
4310
18
I 45.6 169
7 31 8.113121.20
22 5 5.5
3 41.8
9.09498
939851
4329
4.407
19
1 44.5 170
7 33 58.49 34 10.12
21 46 0.3
44 36.7
9.04976
9.90139
4.632
-4345
20
1 43.1 171
7 36 31.08;36 41.36
21 26 50.5
25 28.1
8.99862
9.90196
4342
+3386
21
1 42.1 172
7 38 45.49 38 54.36
21 7 42.3
6 21.0
8.93914
9 90018
4.649
4369
22
I 39.4 173
7 40 41.42 40 48.77
20 48 41.8
47 23.5
8.86907
939606
4.657
4325
23
1 37.0 174
7 42 18.54 ;42 24.44
20 29 55.2
28 39.7
8.78395
938962
4 661
4374
24
1 34.4 175
7 43 36.64|43 41.13
20 1128.2
10 16.3
8.67720
9.88062
4.666
4.800
25
1 31.4; 176
7 44 35.51 144 38.63
19 53 27.4
52 19.6
8.53325
9.86883
4.647
4391
26
I 28.21 177
7 45 14.96 45 16.78
19 35 58.9
34 55.7
8.31483
9.85418
4.648
4.965
27
1 24.5 178
7 45 34.98 45 35.57
19 19 8.7
18 10.6
f 7.85490
9.83053
4670
5.024
28
1 90.6 179
7 45 35.58 45 35.06
19 3 2;i
2 9.5
-7.79733
9 81537
4.667
5.082
29
1 16.4, 180
7 45 16.92 45 15.42
18 47 46.0
46 58.6
8.29050
9.79015
4.659
5.131
30
1 11.8' 181
7 44 39.36 44 37.01
4^18 33 25.8
32 44.2
-8.50993
-9.76082
-4.649
+3.160^
MERCURY, 1855.
For Washinfton Mean Noon and Meridian Transit.
311
Mean Solar UnM of
Maridian Traosiu
Side-
real
Rifht Ascenaion.
Apparent Declination
Log. CoelBcienlof/.
Log. Coellicieal ||
oat. II
Dau».
Al M. Noon.
Al Trana.
Al M. N«>n.
AiTraus.
1 II
InR-A.
III Dec.
In KA.
In Pec.
d.
h. m.
h. m. 8.
m. a.
O 1 II
July 1
1 6.9
182
7 43 43.33
43 40.30
+18 20 5.6 19 28.9
-8.65382
-9.72672
-4.631
+5.197
2
1 1.8
183
7 42 29.58
42 26.02
18 7 50.7
7 20.4
8.75635
9.68649
4.608
5.246
3
0 56U3
184
7 40 58.99
40 55.1 1
17 56 46.3156 21.8
8.83563
9.63870
4.579
5.259
4
0 50.6
185
7 39 12.65
39 8.63
17 46 57.2 '46 37.8
8.89757
9.58200
4.540
5.275
5
0 44.6
186
7 37 11.92
37 7.96
17 38 26U3 38 11.7
8.94630
9.51401
4.483
5.292
6
0 38.4
187
7 34 58.59
34 54.86
17 31 16.6 31 6.2
8.98462
3.43036
4.417
5.304
7
0 32.1
188
7 32 34.42 32 31.03
17 25 30.4125 23.7
901452
9.32366
4.329
5.315
8
0 25.6
189
7 30 1.40 29 58.61
17 21 9.821 6.0
9 03627
9.17870
4.188
5.320
9
0 19.0
190
7 27 21.99127 19.84
17 18 15.8,18 14.1
9.05034
8.95858
3.975
5.318
10
0 12.4
191
7 24 38 66 24 37.24
17 16 48.0
16 47.6
9.05736
-8.49292
-3.499
5.316
11
0 5.7
192
7 2154.02 21 53.37
17 16 46.1
16 46.3
9.05729
+8.44587
+3.528
5.308
11
23 59.0
193
1 19 10.89
18 8.5
12
23 52^
194
7 19 10.78 '16 32.54
17 18 8.5
20 51.8
9.04988
8.93296
4.002
5.296
13
23 45.9
195
7 16 31.71
14 1.01
17 20 52.9
24 53.4
9.03467
9.15084
4.222
5.279
14
23 89.6
196
7 13 59.56
1138.87
17 24 56.1
30 9.0
9.01110
9.28957
4.360
5.255
15
23 33.5
197
7 1136.92
9 28.68
17 30 14.0
36 34.6
8.97808
9.38954
4.465
5.230
16
23 27.6
198
7 9 26.39
7 32.97
17 36 42.4
44 5.1
8.93257
9.46592
4.543
5.196
17
23 22.0
199
7 7 30.33
5 53.86
17 44 16.0 i 52 34.9
8.87495
9.52595
4.605
5.157
18
23 16.7
200
7 5 5096
4 32.83
17 52 49.2
61 56.9
8.797.^4
9.57347
4.650
5.101
19
23 11.8
201
7 4 30.13
3 31.77
18 2 14.7
12 5.0
8.69223
9.61139
4.690
5.046
20
23 7.2
202
7 3 29.60
2 52.13
18 12 26.3
22 52 2
8.53870
9.64167
4.722
4.971
21
23 3.0
203
7 2 50.92
2 35.55
18 23 16.7
34 10.0
8.27784
9.66485
4.745
4.866
22
22 59.2
204
7 2 35.30
2 42.98
18 34 37.6
45 51.1
-7.24797
9.68187
4.766
4.736
23
22 55.8
205
7 2 43.86
3 15.31
18 46 21.1
57 46.2
+8.16448
9.69314
4.779
4.525
24
22 52.9
206
7 3 17.37
4 13.00
18 58 18.5
69 46.7
8.50675
9.69879
4.788
+4.045
25
22 50.4
207
7 4 16.36
5 36.62
19 10 20.5
2143.3
8.69891
9.69873
4.797
-4.054
26
22 48.3
208
7 5 41.36
7 26.45
19 22 17.8
33 25.9
8.87391
9.69290
4.802
4.547
27
22 46.6
209
7 7 32.66
9 42.60
19 34 0.5
44 44.6
8.93681
9.68074
4.804
4.771
28
22 45.4
210
7 9 50.36
12 25.22
19 45 18.7
55 29.3
9.02024
9.66158
4.803
4.929
29
22 44.7
211
7 12 34.40
15 34.07
19 56 1.7
5 28.8
9.09005
9.63403
4.802
5.044
30
22 44.3
212
7 15 44.73
19 9.00
20 5 58 8
14 32.1
9.14984
9.59645
4.797
5.138
31
22 44.4
213
7 19 21.06
23 9.53
20 14 58.9
22 27.3
9.20165
9.54553
4.789
5220
Auf. 1
22 44.9
214
7 23 22.92
27 35.24
20 22 50.2
29 3.4
9.24721
9.47637
4.783
5.281
2
22 45.8
215
7 27 49.92
32 25.44
20 29 22.2,34 10.3
9.28752
9.38147
4.769
5.340
3
22 47.1
216
7 32 41.29
37 39.43
20 34 23.4
37 34.8
9.32334
9.23958
4.755
5.392
4
22 48.8
217
7 37 56.28
43 16.44
20 37 42.2
39 6.4
9.35547
8.29454
4.737
5.436
5
22 50.9
218
7 43 33.91
49 15.31
20 39 7.8 38 34.5
9.38391
+8.21639
4.715
5.475
6
22 53.3
219
7 49 33.07
55 34.44
20 38 29.6 35 49.0
9.40924
-8.86242
4.689
5.508
7
22 55.9
220
7 55 52.49
62 12.58
20 35 37.9 30 41.7
9.43162
9.22635
4.656
5J534 j
8
22 58.9
221
8 2 30.71
9 8.13
20 30 24.5 23 4.0
9.45128
9.43092
4.618
5.558
9
23 2.2
222
8 9 26.13
16 19.37
20 22 41.1
12 49.9
9.46838
9.57508
4.571
5.575
10
23 5.6
223
816 36.99
23 44.38
19 12 21.9
59 56.2
9.48444
9.68587
4.515
5.583
11
23 9.3
224
8 24 1.43
31 21.22
19 59 23.8
44 19.6
9.49535
9.77573
4.447
5.592
12 23 13.1
225
8 31 37.49
39 7.81
19 43 43.5
25 59.2
9..50546
9.84992
4.363
5.593
13
23 17.1
226
8 39 23.13
47 2.12
19 25 20.6
4 57.2
9.51344
9.91470
4.261
5.588
14
23 21.1
227
8 47 16.33
55 2.11
19 4 17.1
41 17.5
9.51942
9.96933
4.130
5.577
15
23 25.2
228
8 55 15.12
63 5.89
18 40 37.0
15 4.3
9.52367
0.01663
3.948
5.565
16
23 29.3
229
9 3 17.59
U 11.48
18 14 24.6
46 26.1
9.52616
0.05767
3.652
5.541
17
23 33J>
230
9 1121.92
19 17.54
17 45 47.9
15 30.3
9.52705
0.09325
+2.704
5.517
18
23 37.6
231
9 19 26.46
27 22.29
17 14 54.7
42 25.9
9.52658
0.12424
-3.465
5.487
19
23 41.6
232
9 27 29.79
35 24.43
16 41 54.1
7 23.0
9.52485
0.15118
3.795
5.454
20
23 45.7
233
9 35 30Ji3
43 22.94
15 66 55.5
30 31.8
9.52203
0.17454
3.940
5.414
21
23 49.6
234
9 43 27.66
51 16.86
14 90 9.4
52 3.3
9.51822
0.19471
4.038
5.369
22
23 53.5
235
9 51 20.26
59 5.52
14 51 46.3
12 6.8
9.51372
0.21212
4.101
5.324
23
23 57.2
236
9 59 7.62
66 48.14
13 71 55.8
30 53.0
9.50851
0.22709
4.157
5.270
24
10 6 49.03
13 30 48.1
9.50278
0.23984
4.177
5.213
25
0 0.9
237
10 14 24.20
14 24.48
12 48 32.7
48 31.1
9.49666
0.25071
4.200
5.154
26
0 4.4
238
10 21 52.79
21 54.15
12 5 18.2
5 10.2
9.49020
0.25991
4.212
5.092
27
0 7.8
239
10 29 14.62
29 16.99
1121 13.1
20 58.7
9.48354
0.26755
4.214
6.011
28
0 11.1
240
10 36 29.66
36 32.98
10 36 2.V5
36 4.6
9.47672
0.27390
4.220
4.940
29
0 14.3
241
10 43 37.82
43 42.03
9 51 1.8
50 34.6
9.46979
0.27907
4.213
4.839
30
0 17.4
242
10 50 39.20 50 44.25
+ 9 5 9.5
4 36.1
+9.46287
-0.28313
-4.206
^.740
312
MERCURY, 1855.
For Washington Mean Noon and Meridian Traneit.
Mean Solar Time of
Meridinn Tnuuiu
Side-
real
Apparent
Right Ascension.
Apparent Declination.
Log. CoefflcleDt off.
Log. Coefficient
of/t.
Uiue.
At M. Noon.
At Trans
m. 8.
At M. Noon.
AiTrans.
IdRA.
In Dec.
In RA.
In Dec [
d
h. in.
a. ni. 8.
0 1 M
1 n
Auf. 31
0 20.4
243
10 57 33 92
57 39.74
+ 8 18 54.4
18 15.0
+947599
-0.38638
-4.196
-4.625
S^pu 1
0 23.2
244
11 4 22.13
4 28.65
7 32 21.8 31 36.7
9.44912
0.38861
4.187
4476
3
0 26.0 245
U 11 3.96|ll 11.15
6 45 36.8
44 45.9
9.44236
0.29016
4.168
4.269 1
3
0 28.7 i46
11 17 39.68 17 47.50
5 58 44.1
57 48.0
9.43576
0.29101
4.156
-3.887 1
4
0 31.2 247
11 24 9.46 24 17.83
5 1148.2
10 46.7
9.42926
0.29124
4.139
+2.382
5
0 33.7 248
1130 33.53130 42.44
4 34 52.4
33 46.0
9.42294
0.29095
4.130
3.950 1
6
0 36.0 249
1136 52.13,37 1.53
3 38 0.3
36 50.0
9.41680
0.29013
4.101
4.221 1
7
0 38.3 250
1143 5.49143 15.35
2 51 15.1
50 0.6
9 41085
0.28883
4.081
4.378 ;
8
0 40.5 251
1149 13.85' 49 24.14
2 4 39.8
3 21.3
9.40506
0.28710
4.064
4476
9
0 42.6 252
1155 17.40 55 28.08
1 18 16.9
16 54.9
9.39947
0.28495
4XM0
4.561
10
0 44.7*253
12 1 1640
I 27.47
■h 0 32 9.1
30 43.5
9.39410
0.28241
4.030
4.620
11
0 46.81254
12 7 11.06
7 22.51
- 0 13 4M
15 9.9
9.38887
0.27950
4X)04
4.672
12
0 49.7 255
12 13 1.53
13 13UJ1
0 59 12.4
60 44.4
9.38384
0.27626
8.977
4.710
13
0 50.4
256
12 18 48.07
19 0.13
1 44 22.1
45 56.5
9.37901
0.27268
8.961
4.751
U
0 52.1
257
12 24 30.82
24 43.12
2 29 8.4
30 45.2
9.37429
0.26875
3.944
4.782
15
0 53.8
258
12 30 9.92
30 22.52
3 13 29.6
15 8.7
9.36972
0.26449
3.935
4.817
16
0 55.5 259
12 35 45.53
35 58.39
3 57 23.6
59 4.5
9.36530
0.25994
3.907
4.828
17
0 57.1 1 260
12 41 17.79
41 30.90
4 40 49.7
42 32.5
9.36102
0.25507
3.886
4.866 1
18
0 58.6 1 261
12 46 46 86
47 0.24
5 23 45.3
25 29.3
9.35689
0.34983
3.869
4.883 1
19
1 O.l
262
12 52 12.86
52 26.40
6 6 9^
7 54.7
9.35285
0.34431
8.859
4.899 '
20
1 1.6
263
12 57 35.86
57 49.61
6 48 0.2
49 469
9.34886
0.33845
3.850
4.925
21
1 2.9 264
13 2 55.92
3 9.83
7 29 16.3
31 3.7
9.34489
0.33330
3.846
4.942 ,
32
1 4.3 265
13 8 13.07
8 27.16
8 9 56.1
1144.3
9^34096
0.33563
3.834
4.956 '
23
1 5.61 266
13 13 27.39
13 41.64
8 49 58.4
51 46.9
9.33703
0.31867
3.887
4.980
24
1 6.8] 267
13 18 38.86
18 53.24
9 29 21.1
31 9.7
9.33310
0.31138
3.839
4.993 ,
25
I 8.0I268
13 23 47.53
24 2.04
10 8 3.0
9 51.4
9.32910
0.30348
3.840
5.012
26
1 9.2' 269
13 28 53.33 29 7.95
10 46 2.3
47 50.7
9.33498
0.19531
3.849
5.027
27
1 10.3' 270
13 33 56.20 34 10.91
1123 17.5
25 5.5
9.33074
0.18644
3.858
5.046
28
1 11.3 271
13 38 56.08 39 10.90
1159 46.6
6133.9
9.31634
0.17714
3.874
5.062
29
1 12.4 272
13 43 52.86 44 7.70
12 35 27 9
37 14.3
9.31164
0.16733
8.903
5.080
80
1 13.3 273
13 48 46.33 49 1.19
13 10 19.3
12 4.3
9.30762
0.15664
3.933
5J097 1
Oct. 1
1 14.21274
13 53 36.33 53 51.19
13 44 18.8
46 2.5
9.30127
0.14539
3.947
5.112 '
S
1 15.0' 275
13 58 22.66 58 37.47
14 17 24.1
19 6.1
9.29546
0.13335
8.983
5.133
3
1 15.8 276
14 3 5.00
3 19.75
14 49 33.05112,6
9.38908
0.13033
4.017
5.154 ;
4
1 16.5 277
14 7 43.03
7 57.69
15 20 42.8 22 20.5
9.28203
0.10617
4X)53
6.175 '
5
1 17.1 '278
14 12 16.35
12 30.86
15 50 50.6152 25.7
9.27416
0.09094
4.097
5.193
6
I 17.6,279
14 16 44.48
16 58.79
16 19 53.7,2125.7
9.26534
0.07436
4.137
5.317 1
7
1 18.1,280
14 21 6.92 21 20.99
16 47 48.4
49 17.3
9.25543
0.05617
4.181
5.338
8
1 18.4*281
14 25 23.07 25 36.84
17 14 31.4
15 56.7
9.24414
0.03618
4.338
5J61
9
1 18.0 282
14 29 32.20 29 45.61
17 39 58.6
41 19.9
9.33131
0X)1398
4.374
5.386
10
1 I8.7I283
14 33 33.53J33 46.56
18 4 5.7
5 22.4
9.31659
9.98919
4.330
5.311
U
1 186 284
14 37 26.20,37 38.66
18 36 47.9 i 37 59.8
9.19948
9.96139
4.371
5.336 ,
12
I 18.3 285
14 41 9.13 4120.98
18 48 0.1 49 6.8
9.17941
9.93943
4418
5.366 <
13
1 17.9! 286
14 44 41.20 44 52.38
19 7 36X) 8 36.9
9.15579
9.89368
4.469
5.393
14
1 17.3 287
14 48 1.07 48 1M7
19 35 29.6 26 34.4
9.13785
9.84964
4.514
5433
15
1 16.5*288
14 51 7.39*51 16.92
19 4133J1 43 31.6
9.09440
9.79814
4.563
5.454
16
1 1 5.4 1 289
14 53 58.53 54 7.09
19 55 39.1 56 30.3
9.05358
9.73501
4.611
5486 ,
17
I 14.0 290
14 56 32.72 56 40.21
30 7 37.9 8 11.5
9.00313
9.65475
4.657
5.519
18
1 12.3 291
14 58 48.07 58 54.59
30 17 19.7 \7A5A
8.93922
9.54733
4.703
5.553
19
1 10^ 292
15 0 42.53 j 0 47.61
30 24 33.5^24 51.0
8.85540
9.39003
4.745
5.588
1 20
1 7.9293
15 2 13.92, 2 17.68
20 29 6.8,29 15.9
8.73926
9.11309
4.787
5.633
31
1 5.0 294
15 319.92; 3 22J32
30 30 46.4,30 47.0
8.56131
-7.58983
4.823
5.656
22
1 1.7|295
15 3.58.33 3 59.37
20 29 18.0 29 10.1
+8.21748
+9.12085
4.858
5.691
23
0 57.9 296
15 4 6.86 4 6.59
20 34 25.9,24 10.1
-7.69723
9.44500
4.886
5.731
24
0 53.6 297
15 3 43.46 3 41.97
30 15 55 Ji 15 33.4
8.44467
9.63918
4.911
5.751
25
0 48.7 298
15 8 46.26* 2 43.74
30 3 31.1 3 1.9
8.71383
9.78021
4.924
5.776 '1
26
0 43.2 299
15 1 14.20 1 10.89
19 46 59 J) ! 46 35.8
8.88324
9.89125
4.932
5.794
27
0 37.1 300
14 59 6.66 59 2.90
19 36 9.1,35 33.5
9.00310
9.98303
4.926
5.803
28
0 30.5 301
14 56 34.13 56 3030
19 0 56.01 0 31.1
9.09559
0.05749
4.903
5.799
29
0 33.3 302
14 53 8.43 53 5.08
18 31 31.4 !30 50.4
9.16625
0.13090
4.857
5781
30
0 15.6 303
14 49 32.86 49 20.25
17 57 36.3.57 13.8
9.21990
0.17337
, 4.785
5.734
_.."-.
0 7.4*304
14 45 12.02 45 10.66
-17 30 6119 53.9
-9J5838
+0.31380
-4.660
45.6.S9
MERCURY, 1855.
For Washiogum Mean Noon and Meridian Transit.
313
Mean Solar Time of
Meridian Tranait.
Side-
real
Date.
Apparent
Right AKenaion.
Apparent Declination.
Log. Coefficient of/.
Log.Ooefflcienl|
ofl«. II
At M. Noon.
At Trane.
At M. Noon.
AtTnina.
In R.A.
In Dec.
la RA.
In Dec
d.
h. ro.
h. m. a.
m. a.
O 1 N
1 II
OcL 31
23 59.0
305
40 42.39
39 28.7
Not. 1
23 50.4
306
14 40 42.20
36 3.11
-15 99 26.9
56 48.3
-9.28332
+0.24227
-4.431
+5.519
S
23 41.7
307
14 86 1.20
31 21.07
15 56 30.6
12 55.2
9.29427
0.26026
-3.820
5.247
S
23 33.1
308
14 31 17.46
26 45.43
14 72 21.1
28 59.6
9.29134
0.26656
+4.202
+3.528
4
23 24.9
309
14 26 40.33
22 24.83
13 88 10.2
46 18.4
9^27386
0.26031
4.571
-5.271
5
23 16.9
310
14 22 18.66
18 27.46
13 45 16.7
6 3.2
9.24097
0.24095
4.759
5.558
6
23 9.5
311
14 18 20.79
15 0.33
13 4 53.1
29 19.6
9.19050
0.20772
4.871
5.719
7
23 2.8
312
14 14 53.73
12 8.69
11 88 6.5
57 2.7
9.11952
0.15909
4.940
5.816
8
22 56.6
313
14 12 2.76
9 56.58
1155 51.7
29 53.9
9.02173
0.09269
4.984
5.878
9
22 51.2
314
14 9 51.73
8 25.86
1128 49.8
8 17.8
8.88395
0.00405
5.005
5.910
10
22 46.4
315
14 8 22.66
7 37.33
10 67 24.7
52 22.6
8.67306
9.88814
6.010
5.919
11
22 42.4
316
14 7 36.06
7 30.14
10 51 43.8
42 9.2
•^.25360
9.72762
5.001
5.918
12
22 S9J0
317
14 7 31.02
8 2.76
10 41 46.5
37 29.0
+8.02243
947783
4.982
5.900
13
22 36.3
318
14 8 5.86
9 12.83
10 37 18.4
37 474
8.57322
+8.89816
4.955
6.871
14
22 34.1
319
14 9 18.13
10 57.55
10 37 57.7
42 52.6
879567
-9.09956
4.921
5.832
15
22 32.5
320
14 11 4.98
13 14.08
10 43 20.6
52 17.1
8.93181
949543
4.882
5.793
16
22 31.3
321
14 13 23.46
15 59.18
10 53 0.0
65 26.7
9.02670
9.68131
4.855
5.732
17
22 30.6
322
14 16 10.43
19 9.99
11 6 23.2
2154.8
9.09698
9.79656
4.786
6.676
18
22 30.2
323
14 19 22.73
22 43.55
11 23 2.9
41 12.5
9.15119
9.87655
4.737
5.608
19
22 30.2
324
14 22 57.66
26 37.37
1142 30.7
62 56.3
9.19438
9.93499
4.685
5.541
20 22 30.5
325
14 26 52.66
30 49.14
12 4 22.6
26 40.7
9.22932
9.97874
4.631
5457
21
22 31.0
326
14 31 5.39
35 16.53
12 28 13.2
52 3.6
9.25782
0.01167
4.572
5.370
22
22 31.7
327
14 35 33.59
39 67.75
12 53 40.9
18 45.7
9.28135
0.03660
4.518
5.273
23
22 32.6
328
14 40 15^6
44 51.25
13 20 26.4
46 29.8
9.30123
0.05540
4466
5.167
24
22 33.8
329
14 45 9.46
49 55.57
13 48 12.8
75 0.5
9.31806
0.06929
4410
5.036
25
22 35.1
330
14 50 14.13
55 9.34
14 16 44.3
44 4.7
9.33228
a07903
4.352
4.885
26
22 36.6
831
14 55 28.13
60 31.68
14 45 47.6
73 28.6
9.34434
0.08555
4JJ08
4.694
27
22 38.1
332
15 0 50.53
6 1.49
15 15 11.4
42 59.6
9.35507
0.08920
4.259
-4.336
28
22 39.8
333
15 6 20.46
1138.05
15 44 44.2
72 35.8
9.36437
0.09010
4.208
+3.586
29
22 41.5
334
15 1156.98
17 20.69
16 14 15.4
42 24
9.37252
a08888
4.162
4.301
30
22 43.4
335
15 17 39.53
23 8.88
16 43 38.3
71 13.3
9.37980
0.08599
4.119
4.564
Dec 1
22 45.3
336
15 23 27.53
29 2.05
17 12 46.0
40 3.3
9.38628
0.08141
4.075
4.715
2 22 47.4
337
15 29 20.46
34 59.87
17 41 32.2
8 26.0
9.39215
0.07525
4.046
4.821
3
22 49.4
338
15 85 18.00
41 1.96
18 9 50.9
36 16.9
9.39750
0.06757
4.004
4.894
4
22 51.5
839
15 41 19.73
47 7.88
18 37 37.1
63 29.6
9.40234
0.05849
3.970
4.952
5
22 53.8
340
15 47 25.33
53 17.60
19 4 46.2
30 24
9.40685
0.04804
3.954
4.995
6
22 56.1
341
15 53 34.66
59 30.74
19 31 14.3
55 504
941105
0.03638
3.915
5.031
7
22 58.4
342
15 59 47.40
65 47.25
19 56 57.8
80 50.9
941494
0.02334
3.895
5.062
8 23 0.7
343
16 6 3.40
12 6.80
20 21534
44 59.8
941863
0.00902
3.876
5.087
9
23 3.2
344
16 12 22.58
18 29.47
20 45 58J3
68 15.7
942206
9.99332
3.843
6.112
10
23 5.7
345
16 18 44.59
24 54.90
21 9 9.5
30 35.5
942534
9.97620
3.839
5.130
11
23 8.2
346
16 25 9.46
31 23.13
21 31 24.7
51 56.1
942853
9.95752
3.829
5.152
12
23 10.7
347
16 3137.13
37 54.12
21 52 41.0
72 16.6
943157
9.93723
3.802
5.162
13
23 13.3
348
16 38 7.43
44 27.55
22 12 57.1
3134.8
9.43448
9.91539
3.797
5.175
14 23 16.0
349
16 44 40.33
51 3.60
22 32 11.2
49 48.9
9.43730
9.89159
3.780
6.191
15
23 18.7
350
16 51 15.73
57 42.08
22 50 20.9
66 56.2
9.43997
9.86543
3.760
6.206
16
23 21.4
351
16 57 53.49
64 22.84
23 7 23.9
22 54.0
9.44254
9.83679
3.750
5.216
17
23 24.2
352
17 4 33.60
11 6.04
23 23 18.7
37 42.8
9.44510
9.80543
3.742
5.225
18
23 26.9
353
17 11 16.07
17 51.33
23 38 3.9
5120.0
9.44757
9.77085
3.730
5.235
19
23 29.8
354
17 18 0.76
24 38.90
23 51 37.9 63 44.4
944983
9.73240
3.705
5.244
20 23 32.7
355
17 24 47.46
31 28.61
24 3 59.2
14 54.0
945203
9.68927
3.700
5.253
21
23 35.6
356
17 31 36.27
38 20.22
24 15 6.2
24 48.3
945429
9.64036
3.700
5.261
22
23 38.5
357
17 38 27.20
45 13.88
24 24 57.5
33 25.0
945642
9.58413
3.669
5.270
23
23 41J>
358
17 45 20.06
52 9.53
24 33 31.6
40 42.2
945841
9.51824
3.647
6.276
24
23 44.5
359
17 52 14.76
59 6.77
24 40 47.3
46 39.6
946032
9.44120
3.637
5.285
25
23 47.5
360
17 59 11.26
66 5.82
24 46 43.0
51 15.5
9.46214
9.34009
3.613
5.292
26
23 50.6
361
18 6 9.46
13 6.51
24 51 17.5
54 28.9
946385
9.20974
3.586
6.296
27
23 53.6
362
18 13 9.26
20 8.72
24 54 29.9
56 18.2
9.46547
9.01918
3.567
5.305
28
23 56.8
363
18 20 10.59
27 12.46
24 56 18.5
56 41.8
946702
-8.66053
3.552
5.313
29
23 59.9
364
18 27 1340 34 17.43
24 56 41.8
55 39.7
946842
+8.12944
3479
5.318
30
365
18 34 17.46
24 55 39.7
946968
8.86613
3461
5.324
31
0 SJO
366
18 4122.72 4123.60
-24 53 lO.l
53 9.7
t947079
+9.12957
+3.449
+5.332
40
314
VENUS, 1865.
for Wftsliiiififlfi Miiui Nontj nod Merkliui Tnn«kt
5I#»n Srdif Tim*! ttf
Wll
Dale
Kifbf A^eiHlon.
AppwBiit O#cli.i»tlotv
At
TrijwIL
At
At
Traiwit,
laR.A.
in Dee.
Ifl R A.
kUK
A
It. m
t|. Itl. n
m. *.
'"-> * H
* »
Jui, 1
0 34.1
0
19 07 lft.%
7 22,40
-23 35 2tJ.7
2ft 13,9
49.35700
+9.4493
-343
4«in
3
0 25.0
1
19 12 44.31
12 50, 14
23 18 134
18 54
9.35621
9.4945
3.17
SgOl
a
0 S7.1
2
19 1^ IL03
18 17.19
23 10 23.6
10 U.3
9.35533
9.5340
3.31
liftt
4
0 8».G
3
19^3 37.0512.143^4
2,1 I 51.5! J ■iO.S
935436
9.5695
3.34
3j01
a
W 304
4
19 2*1 2^0 29 3.12
22 52 37.1
52 24.9
9.35332
9.6021
3.37
SJOO
a
i> :(|,5
5
t9 34 36.73hMS3.S6
23 42 40.5
42 26.9
9.3522S
9,6322
3J*0
3*00
7
0 ASCI
c
I0 39 50.33|39 57.7a
22 32 2.3
31 47.1
9-35107
9.6603
3;J3
3.00
B
0 3i,4
T
19 4,"/ 13,07
45 20.7**
32 20 43.0120 202
I».-H98G
9.0865
3il«
4J9
a
0 3&.8
B
ly 5i»34.e9
50 42.90
22 »43.l
8 24.6
9,34859
9.7109
338
4.99
10
0 37.2
S*
I9 5&55J4
ii€ 4 m
21 50 3.2
55 43.il
9-34735
9.7338
340
4,9*
u
0 as ft
10
20 I iri..^7
1 24.15
21 42 4.3.9
42 21.9
9.34584
9.7552
342
4J7
13
0 ifhO
11
20 6,H.13
1 0 43.19
21 28 45.5
28 21.5
9.34430
9,7752
3.43
4^7
13
0 4L4
12
20 11 51,99
13 112
21 14 8,5
13 42.6
9<343S4
97940
344
4.96
U
0 42J
l.t
20 1 T H.53
17 l7tJ2
20 58 534
H S5.6
9^4129
9.8118
3.45
4.93
15
0 41.0
U
20 22 23.»3
22 33.57
20 43 10
42 31.2
9.13970
9.8287
3,40
4.96
ie
0 4.'i..^|
15
20 27 3R,i«
27 4mh
2f>26 3t,9
20 0.1
9.3.3807
9,8447
3.40
4.94
17
0 411.6
Ki
20 .12 5 LI 9
33 1.32
20 9 20.W
8 53,0
9^3039
9,8598
3.40
4,93
l«
0 47.R
tr
20 38 3,01
38 13.37
19 51 405|5| 100
9,33467
9.8741
3.47
4.92
19
0 49.1
t8
20 43 13,5?(
43 24.16
19 33 31,5.32 53,5
9,33292
9.8S7S
3,47
491
^
0 ao.,^
i»
2<> 4» 22 ST
48 33,67
19 14 424 14 2.3
9^3114
9.9006
348
4.90
SI
0 ais
»i
20 53 30.89
.V3 41.90
18 55 19.9 54 377
9^29.33
9.9131
3.48
4J9
22
0 53A
31
20 5a 37.64
58 4H.84
18 35 25.0 34 4^1,7
9-32750
9.9247
' 3.48
4M
m
0 B3.7
22
21 3 43.09
3 5449
18 14 58.5 14 12.0
9.32565
9.9358
348
4.87
9i
0 14.8
23
21 8 47 24
8 58.8.3
17 54 0,9 S3 12^
9,32aS0
9.9464
349
48S
S&
0 B5.&
24
21 I3 30.IB
14 1.86
17 32 33^)3142^
9.32193
9.9566
3.5U
433
se
0 S7,0
39
31 l«fll.&3
19 3.5ft
17 10 35,5, 9 42 6
9.32004
0J««1|
3^
4M
87
0 m\
36
31 2a5L@f>
S4 339
U48 9.1 47 14.1
Ml 81 5
IJ7»
BM
AM
M
0 SS.l
37
21 28 50.80
29 3.oe
16 25 147 24 17.5
9*31629
».»»11
349
4^3
S9
1 oa
2H
21 33 4!3 47
34 0.91
16 i 53.1 0 53.8
9-31446
3*f»M
349
4iil
SO
1 11
2^
21 38 44.S9
33 57.49
15 38 5,0 37 3.6
9^11304
aooos
3^8
471
ai
1 SJ
?lfl
21 43 40.07
43 52.Sa
15 t3.-il^'l2 47.«l
9.31083
0.0078
347
4.T8
Fth. 1
1 :i.i
31
2} 49 34.02
4§ 40.91
l4 49l2Ji:48 7,1
9.34MH)|
aoi50
340
4.77
^
1 4.0
32
21 53 2fi,75
5.1 3977
14 24 9,8.23 2JI
9.30721
0.0219
343
47i
3
I iM
S3
21 53 1^.26
5i*3l,4l
13 58 437 57 34.9
9 30541
0.0284
344
474'
4
I 5,S
34
22 3 8.5g
3 21.86
13 32 554
31 43.0
9.3^04
0.0347
3,43
4.73
5
I fi.7
3fi
32 7 57,73
fl 11.14
U 0 447
5 31.9
9 30191
OO4O0
343
471
^
1 7,6
3fi
22 vara 5
I2 3y.29
13 40 1^1.2 38 57.8
9.3t)032
0.04lit
341
4.09,
7
1 8.4
37
22 17 32.66
i7lO-Hl
12 13 tf 14 12 41
9.99856
0.115 15
3,40
4,08'
«
1 9J
3S
22 22 18 4*9
22 32,2.*^
11 40 UM 14451.0
9.29694
04)504
339
4.ft«
9
1 10.0
39
22 27 3 26 27 17.12
U 18 40.0(17 19.1
^.39537
0.0615
338
4J4
10
1 10,7
40
23:H47.<f2
32 0.98
10 50 51.9,49 29.2
9.29386
0.0061
337
4.43
11
1 U.ft
41
22 36 29.«2
36 43.88
in 2a 40,0' 2 1 224
' 9.29239
0.0704i
330
4^
13
1 las
4U
22 41 ll.flfl
41 25 84
9 54 24.8 59 587
9.29095
0.0745
335
458
U
I 13.0
43
22 4.- S2«il
40 M7i
9 25 47.5 24 19,8
9.28955
0,0784
3^
446
14
1 13.7
44
22 5*n2.GS
50 47.01
f« 50 554,55 204
9Ji8819
0.0820
$M
4.A3
)9
1 144
45
2i>5:^ njs
55 20 30
8 27 49.3 26 1 8Ji
9.28688
0^0853
9;90
4 JO
14
1 1^.1
4n
22 yt 5ftm
00 4.75
7 5K»9.9'56 57.6
9.28561
ojoeas
aje
4 4?
17
1 nM
47
23 4 27,75*
4 42 39'
7 28 5^4 '27 24^3
9.284*38
00913
sm
444,
It
1 IIS
4a
33 9 4.54 1
9 19.27
659 U7 57 394
9 38321
0.0940
3.34
441
13
1 17.1
49
35 13 40 02 13 55 43
6 29 204 27 43.7
9,28211
0.0966
3^1
43<
SO
1 i7,ei
54*
23 li^U.OI ]fi34},92
S59 10i)
57 3».0
9,28109
emm
3.13
4J3
31
i !i,4
5L
23 22,'W*.:7 23 5.77
5 3V 3.3
27*3.0
9.2§Ol3
0.1013
&]A|
4»
33'
1 13.1
53
23 27 24.93 37 40.(12
4 58 39.A
50 59.3
9.37918
0.1034
3.13
4JW
m
1 13 J
(k3
3.3 31 SS.5J 32 Vim
4 28 94
26 27^1
»47«38
04052
309
43*
S4
1 304
M
23 .30 31,54,30 40 «0
3 57 31J0
55 4i,0
tj:T40
040*8
SilO
iJO
Ifl
1 S0,3
5.^
23 41 4 0«'4I 19 43
3 36 464
25 &;)
927072
0.108S
aoi
443
Sfi
1 3t.5
5«
23 45 36J9 45 5l.0y
3 55 50.1
54 no
9.27005
41.1(194
t^
4j0S
S7
t 33 1
57
S3 50 7 «3
50 3341
2 25 K3
23 15,1
9^27545
04104
3.94
3.9T
sa
1 33.e
5*
23 54 39 J4
54 54.a5
1 51 2,5
52 15*
9,27491
0.1112
3.S8
384
Mv. 1
1 SS.3
59
23 50 10.27 59 35.971
1 23 U7
21 12 7
9,27443
0.1118
3J1
3*73
>
1 UM
€0
0 3 41.03 3 56.S1]
-0SIS«.6 50 7JJ
J^f.37403
4a] Its
-»*T3
»3J0
VENUS, 1855.
315
For WaahiD«toa Mean Noon and Meridian Transit.
Me«o8oUrTloMof
Meridian Tnoslu
Side-
real
Date.
Apparent
Right AK^nsion.
Apparent Declination.
Log. of Motion in a
Sdereal Minute.
Loff. of Factor
For Second DifTe
At
Mean Noon
At
TranaiL
At
Mean Noon.
At
Tnnait.
InRA.
In Dec.
In R,A.
In Dec.
d. h. m.
li. m. s.
m. 8.
O 1 «
1 •
Mar. 3 1 24.3
61
0 8 11.54
8 27.43
-0 20 50.9
19 IX)
+9.27370
+0.1127
-2.64
+848
4 1 24.9
62
0 12 41.89
12 57.87
+0 10 16.1
12 6.8
9.27344
0.1129
2J>3
+2.30
1 5 1 25.5
63
0 17 12.10
17 28.17
0 4123.9
43 15.2
9.27324
0.1130
2.38
-2.42
6 1 26.0
64
0 21 42.20
21 58.38
1 12 31.6
14 23.5
9.27312
0.1129
2.08
3.42
7 I 26.6
65
0 26 12.25
26 28.54
143 38.3
45 30.8
9.27308
0.1125
-1.38
3.65
8 I 27.1
66
0 30 42 31
30 58.70
2 14 43.2
16 36.3
9.27311
0.1120
+1.86
3.77
9 1 27.7
67
0 35 12.40
35 28.90
2 45 45.6
47 39.2
9.27320
0.1113
2.23
3.89
10 1 28.3
68
0 39 42.56
39 59.17
3 16 44.7
18 38.8
9.27336
0.1105
2.46
3.98
11 1 28.8
69
044 12 85
44 29.57
3 47 39.9
49 34.5
9.27359
0.1095
2.58
4.05
12 1 29.4
70
0 48 43.31
49 0.14
4 18 30.5
20 25.6
9.27388
0.1083
2.67
4.11
13 1 30.0
71
0 53 13.96
53 30.92
4 49 15.9
51 11.3
9.27424
0.1070
2.76
4.16
14 1 30.5
72
0 57 44.86
58 1.95
5 19 55.2
21 50.9
9.27467
0.1055
2.84
4.21
15 I 31.1
73
1 2 16.05
2 33.27
5 50 27.5
52 23.5
9.27517
0.1038
2.91
4.26
16 1 31.7
74
1 6 47.57
7 4.92
6 20 52.2
22 48.4
9.27573
aioi9
2.96
4.30
17 I 32.3
76
1 11 19.45
1136.94
6 51 8.6
53 5.0
9.27635
0.0998
3.00
4.33
18 1 32.9
76
1 15 51.74
16 9.37
7 21 16.1
23 12.7
9.27703
0.0975
3.04
4.37
19 1 33JS
77
1 20 24.48
20 42.24
7 51 13.9
53 10.6
9.27776
0.0951
3.07
4.40
20 1 34.1
78
1 24 57.69
25 15.60
8 21 1.0
22 57.7
9.27854
0.0924
3.10
4.43
21 1 84.7
79
1 29 31.41
29 4948
8 50 36.6
52 33.3
9.27937
0.0895
3.12
4.46
22 1 35.3
80
134 5.68
34 23.91
9 20 0.2
21 56.9
9.28026
0X)865
3.14
4.49
23 1 35.9
81
1 38 40.54
38 58.93
9 49 11.1
51 7.6
9.28121
0.0833
3.16
4.51
24 1 36.6
82
1 43 16.00
43 34.56
10 18 8.3
20 4.7
9.28220
0.0798
3.18
4.54
25 1 37.3
83
1 47 52.10
48 10.83
10 46 51.0
48 47.2
9.28321
0.0760
3.20
4.56
26 1 37.9
84
1 52 28.86
52 47.76
11 15 18.6
17 14.5
9.28426
0.0720
3.22
4.58
27 1 38.6
85
157 6.30
57 25.38
1143 30.3
45 25.9
9.28537
0.0679
3.24
4.60
28 1 39.3
86
2 144.47
2 3.73
12 11 25.4
13 20.6
9.28654
00635
3.26
4.62
29 1 40.0
87
2 6 23.41
6 42.86
12 39 3.3
40 58.1
9.28777
0.0588
3.28
4.63
30 1 40.7
88
2 11 3.16
1122.81
13 6 23.1
8 17.5
9.28905
0.0539
3.29
4.65
31 1 41.4
89
2 15 43.74
16 3.59
13 33 23.9
35 17.8
9.29035
0.0488
3.30
4.67
Apr. 1 1 42.2
90
2 20 25.16
20 45.22
14 0 5.2
I 58.5
9.29166
0.0435
3.31
4.68
2 1 43.0
91
2 25 7.44
25 27.72
14 26 26.3
28 18.9
9.29300
0.0378
3.32
4.70
3 1 43.8
92
2 29 50.60
30 11.10
14 52 26 4
54 18.2
9.29438
0.0318
3.33
4.72
4 1 44.6
93
2 34 34.68
34 55.40
15 18 4.7
19 55.7
9.29582
0.0255
3.34
4.74
5 1 45.4
94
2 39 19.72
39 40.66
15 43 20.6
45 10.8
9.29730
0X)190
3.35
4.76
6 1 46.2
95
2 44 5.74
44 26.92
16 8 13.3
10 2.6
9.29879
0.0121
3.36
4.77
7 1 47.1
96
2 4952.75
49 14.19
16 32 42.0
34 30.4
9.30030
0.0049
3.37
4.78
8 I 47.9
97
2 53 40.76
54 2.46
16 56 46.0
58 33.4
9.30181
9.9974
3.37
4.79
• 9 1 48.8
98
2 58 29.77
58 51.71
17 20 24.8
22 11.1
9.30331
9.9896
3.38
4.80
10 1 49.7
99
3 3 19.78
3 41.96
17 43 37.6
45 22.8
9.30481
9.9814
3.38
4.81
11 1 50.6
100
3 8 10.79
8 33.22
18 6 23.7
8 7.7
9J)0631
9.9727
3.39
4.82
12 1 51.5
101
3 13 2.81
13 25.51
18 28 42.1
30 24.9
9.30782
9.9637
3.40
4.83
13 1 52.4
102
3 17 55.86
18 18.84
18 50 32.5
52 13.8
9.30935
9.9543
3.40
4.84
14 1 53.4
103
3 22 49.95
23 13^1
19 11 53.9
13 33.8
9.31089
9.9443
3.40
4.85
15 1 54.3
104
8 27 45.10
28 8.64
19 32 45.7
34 24.1
9.31242
9.9339
3.39
4.86
16 1 55.3
105
3 32 41.29
33 5.12
19 53 7.3
54 44.1
9.31394
9.9231
3.39
4.87
17 1 56.3
106
3 37 38.50
38 2.62
20 12 57.9
14 33.0
9.31543
9.9117
3.38
4.88
18 1 574
107
3 42 36.70
43 1.12
20 32 16.8
33 50.1
9.31688
9.8997
8.38
4.89
19 1 58.4
108
3 47 35.89
48 0.61
20 51 3.4
52 34.8
9.31830
9.8870
3.37
4.90
20 1 59.5
109
3 52 36.06
53 1.08
21 9 16.9
10 46.4
9.31970
9.8738
3.36
4.91
21 2 0.5
110
3 57 37.19
58 2.51
21 26 56.7
28 24.2
9.32107
9.8599
3.35
4.92
22 2 1.6
111
4 2 39.24
3 4.87
2144 2.3
45 27.6
9.32239
9.8453
3.34
4.93
23 2 2.7
112
4 7 42.20
8 8.13
22 0 33.0
156.1
9.32366
9.8298
3.33
4.94
24 2 3.8
113
4 12 46.03
13 12.27
22 16 28.3
17 49.1
9.32488
9.8136
3.32
4.94
25 2 5.0
114
4 17 50.71
18 17.26
22 31 47.6
33 6.0
9.32607
9.7965
3.30
4.95
26 2 6.1
115
4 22 56.20
23 23.07
22 46 30.5
47 46.3
9.32721
9.7783
3.28
4.95
27 2 7.3
116
4 28 2.48
28 29.66
23 0 36.2
149.4
9.32829
9.7590
3.26
4.96
28 2 8.5
117
4 33 9.51
33 37.01
23 14 4.3
15 14.7
9.32932
9.7387
3.24
4.96
29 2 9.7
118
4 38 17.26
38 45.08
23 26 54.3
28 1.9
9 33030
9.7172
3.21
4.97
30 2 10.9
119
4 43 25.68
43 53.81
23 39 5.7
40 10.4
9.33121
9.6942
3.18
4.97
May 1 2 12.1
120
4 48 34.71
49 3.16
23 50 38.2
51 39.8
9.33205
9.6696
3.15
4.98
2 2 13.4
121
4 53 44 32 54 13.081+24 131.2
2 29.7
+9.33283
+9.6432
+3.12
-4.98
316
VENUS, 1855.
For Waflhfngum Mtan Noon and Meridian TransK.
Mean SoUr Time of
Meridiaa TnuMiu
SUfo
red
Ikte.
Apparent
Rifhi Aacerwlon.
Apparent I^lination.
Log. of Motion in a
Siilereal Minute.
Log of Factor
fert>ecoadl>i0r*a.
At
Mean Noon
At
Traneft.
At
Mean Noon.
At
InHA.
In Dec.
InR.A.
In Dec
d.
h. m.
h. m. B,
m. a.
0 1 II
1 M
May 3
2 14.6
122
4 58 54.47
59 23.54
+24 11444
12 39.7
+9.33355
+9.6148
+3.08
-4^
4
2 15.8
123
5 04 05.10 04 34.49
24 21 17.5
22 09.5
9.33420
9.5843
3j03
4.99
5
2 17.0
124
5 09 16.18 09 45.88
24 30 10.2
30 58.9
9.33479
9.5510
2.97
4.99
6
2 18.3
125
5 14 27.65
14 57.66
24 38 22.3
39 07.5
9.33530
9.5152
2.90
5.00
7
2 19.5
126
5 19 3946
20 09.77
24 45 53.3
46 34.9
9.33573
94754
2.82
5.00
8
2 20.8
127
5 24 51.55
25 22.16
24 52 42.9
53 20.8
9.33608
9.4316
2.73
5.00
9
2 22.1
128
5 30 08.87
30 34.77
24 58 51.0
59 25.1
9.33635
9.3824
2.61
5.00
10
2 23JJ
129
5 35 16.35
35 41 M
25 04 17.5
04 47.7
9.33654
9.3266
242
5J01
11
2 24.6
130
5 40 28.94
41 0041
25 09 02.0
09 28.3
9.33664
9.2627
+1.86
5.01
12
2 25.9
131
5 45 41.56
46 13.31
25 13 044
13 26.7
9.33664
9.1866
-1.86
5.01
13
2 27.1
132
5 50 54.15
51 26.16
25 16 24.6
16 42.8
9.33655
9.0947
2.38
bJOl
U
2 28.4
133
5 56 06.64
56 38.91
25 19 02.6
19 16J^
9.33638
8.9774
2.60
5.01
15
2 29.6
134
6 01 18.98
01 51.50
25 20 58.3
21 07.9
9.33611
8.8171
2.76
5m
16
2 30.9
135
6 06 31.09
07 03.86
25 22 11.7
22 17.0
9.33574
8.5593
2.86
bJOl
17
2 32.1
136
6 11 42.90
12 15.91
25 22 42.8
22 43.7
9J33528
+7.8416
2.95
5.01
18
2 33.4
137
6 16 54.34
17 27.58
25 22 31.7
22 28.1
9.33472
-8.3495
3.03
5.01
19
2 34.6
138
6 22 05.35
22 38.80
25 21 384
2130.2
9.33406
8.7132
3.09
5X)1
20
2 35.9
139
6 27 15.85
27 49.51
25 20 02.9
19 50.1
9.33330
8.9076
3.15
5J00
21
2 37.0
140
6 32 25.78
32 59.63
25 17 45.6
17 28.1
9.33244
9.0406
3.20
5.00
22
2 38.2
141
6 37 35.05
38 09.09
25 14 46.6
14 24.3
9.33147
9.1422
3.25
5.00
23
2 39.4
142
6 42 43.59
43 17.81
25 1106.1
10 39.0
9.33040
9.2239
3.29
6.00
24
2 40.6
143
6 47 51.351 48 25.72
25 06 44.3
06124
9.32924
9.2924
3.32
5J00
25
2 41.8
144
6 52 58.25 53 3^.77
25 0141.5
0104.8
9.32799
9.3511
3.35
4.99
26
2 42.9
145
6 58 04.24158 38.90
24 55 57.9
55 16.3
9.32665
9.4026
3.37
4.99
27
2 44.1
146
7 03 09.25
03 44.03
24 49 33.9
48 474
9.32522
9.4481
3.39
4.99
28
2 45.2
147
7 08 13.22
08 48.11
24 42 29.9
41 38.5
9.32369
94891
341
4.99
29
2 46.3
148
7 13 16.08
13 51.07
24 34 46U)
33 50.0
9.32206
9.5260
3.43
4.98
30
2 47.3
149
7 18 17.77
18 52.85
24 26 23.6
25 22.3
9.32034
9.5600
345
4.98
31
2 48.4
150
7 23 18.25
23 5341
24 17 22.2
16 16.0
9.31856
9.5913
347
4.97
JOM 1
2 49.4
151
7 28 17.48,28 52.72
24 07 42.6
06 31Ji
9.31672
9.6197
349
4.96
2
2 50.4
152
7 33 15.43,33 50.72
23 57 25.1
56 09.2
9.31481
9.6456
3.51
4.96
3
2 5M
153
7 38 12.04138 47.37
23 46 30.2
45 09.5
9.31281
9.6700
3.53
AJ95
4
2 52.4
154
7 43 07.26143 42.62
23 34 58.4
33 32.9
9.31073
9.6929
3.54
4J5
5
2 53.3
155
7 48 01.04 48 3642
23 22 504
2120.1
9.30858
9.7143
3.55
4.94
6
2 54.3
156
7 52 53.35 53 28.74
23 10 06.8
08 31.7
9.30637
9.7344
3.56
4.93
7
2 55.2
157
7 57 44.15 58 19.54
22 56 48.2
55 084
9.30409
9.7534
3.57
4.93
8
2 56.1
158
8 02 3340|0S08.78
22 42 55.0
41 10.5
9.30175
9.7713
3.58
4.92
9
2 57.0
159
8 07 21.08 07 56.43
22 28 27.7
26 38.5
9.29935
9.7882
3.59
4.92
10
2 57.8
160
8 12 07.16 12 4247
22 13 26.8
1133X)
9.29688
9.8042
3.59
4J1
11
2 58.6
161
8 16 51.60 17 26.85
21 57 53.0
55 54.7
9.29434
9.8193
3.60
4.90
12
2 59.4
162
8 21 34.35 22 09.54
21 41 47.2
.39 44.3
9.29174
9.8336
3.61
4.89
13
3 00.1
163
8 26 1540 26 50J>3
21 25 10.0
23 02.7
9.28909
9.8471
3.62
4.88
14
3 00.8
164
8 30 54.73 31 29.78
21 08 02.2
05 50.6
9.28640
9.8598
3.63
4.87
15
3 01.4 165
8 35 32.32
36 07.26
20 50 24.3
48 08.5
9.28364
9.8719
3.63
4.86
16
3 02.1 166
8 40 08.12
40 42.96
20 32 16.9
29 57.0
9.28081
9.8836
3.64
4.85
17
3 02.7:167
8 44 42.11
45 16.85
20 13 40.8
11 16.8
9.27793
9J947
3.64
4.84
18
3 03.3 1 168
8 49 14.27
49 48.90
19 54 36.8
52 08.8
9.27500
9.9052
3.65
4.83 1
19
3 03.9 169
8 53 44.59 54 19.09
19 35 05.5
32 33.6
9.27204
9.9153
3.65
4.81 1
20
3 O44I170
8 58 13.06 58 4741
19 15 07.6112 31.9
9.26903
9.9248
3.65
4.80
21
3 04.9J171
9 02 39.66,03 13.84
18 54 43.8
52 044
9.26595
9.9338
3.66
4.78 1
22
3 054 172
9 07 04J55 07 38.37
18 33 55.0
31 12.0
9.26280
9.9424
3.66
4.77 1
23
3 05.8' 173
9 11 27.12 12 00.98
18 12 42.0
09 55.6
9.25963
9.9505
3.66
4.76,
24
3 06.2,174
9 15 47.98' 16 21.66
17 51 05.5
48 15.8
9.25643
9.9582
8.67
4.74'
25
3 06.6 175
9 20 06.91 20 4041
17 29 06.2'26 13.3
9.25319
9.9656
8.67
4.73
26
3 O6.9' 176
9 24 23.90 24 57.21
17 06 44.9
03 48.8
9.24991
9.9726
3.67
4.711
27
3 O7.2I 177
9 28 38.95 29 12.06
16 44 024
4103.3
9.246^9
9.9792
3.67
4.70
28
3 07.5 i 178
9 32 52.04 33 24.94
16 20 59.5
17 57.5
9.24324
9.9855
3.67
4.68,
29
3 07.7^179
9 37 03.18 37 35.86
15 57 36.7
54 31.9
9.23986
9.9916
3.67
4.67
30
3 07.9,180
9 41 12.36 4144.82
15 33 54.7
.30 47.2
9.23645
9.9974
3.67
4.65
jQlj 1
3 08.1 J 181
9 45 19.58 45 51J2
15 09 54.2
06 44.3
9.23302
0.0029
3.67
4.63
2
3 08.2,182
9 49 24.86*49 56.86
+ 14 45 36.042 23.9
t9.22957
-0.0080
-3.67
-4^1
VENUS, 1855.
817
For Washington Mwn Ifoon and Meridian Trandl,
Mean Solar Time of
Side-
real
Right A«ceiision.
Apparanl Decttnatioo.
Log. of Motion in a
Sidereal Minute.
Loc. of Factor
for Second Diflfa
Meridian Traasiu
Date.
At
Mean Noon.
At
TraneiL
At
Mean Noon.
At
Transit.
IaR.A.
In Dec.
In R.A.
In Dec
d.
h. m.
h. m. a.
m. e.
O 1 «
1 .1
July 3
3 8J3
183
9 53 28.1 9! 53 59.95
+14 21 IX) 17 46.7
+9.22610
-0.0128
-3.67
-4.59
4
3 8.4
184
9 57 29.5858 1.10
18 56 9.8 52 53.3
9.22261
0X)174
3.67
4.57
5
3 8.5
185
10 1 29.03
2 0.31
13 31 3.2 27 44.6
9.21909
0.0218
3.67
4.55
6
3 8.5
186
10 5 26.53
5 57.56
13 5 41.81 2 21.4
9.21553
0.0258
3.67
4.52
7
3 8.4
187
10 9 22.09
9 52.86
12 40 6.4 36 44.3
9.21195
0.0296
3.67
4.50
8
3 8.4
188
10 13 15.71
13 46.21
12 14 17.7 10 53.9
9.20835
0.0333
3.67
4.48
9
3 8.3
189
10 17 7.40
17 37.63
11 48 16.4 44 51X)
9.20473
0.0368
3.68
4.45
10
3 8.2
190
10 20 57.16
21 27.12
11 22 3.0 18 36.1
9.20107
0.0401
3.68
4.43
11
3 8.1
191
1024 44 97
25 14.65
10 55 38.2! 52 10.0
9.19735
0.0431
3.68
4.40
12
3 7.9
192
10 28 30.81
29 0.21
10 29 2.8 25 33.5
9.19358
0.0458
3.68
4.37
13
3 7.7
193
10 32 14.70
32 43.81
9 62 17.7
58 47.4
9.18977
0.0483
3.68
4.34
U
3 7J5
194
10 35 56.63
36 25.44
9 35 23J»
3152.4
9.18592
0.0507
3.68
4.30
15
3 7J2
195
10 39 36.59
40 5.10
9 8 21.0
4 49.2
9.18201
0.0529
3.68
4.26
16
3 6.8
196
10 43 14.56
43 42.76
8 41 llJO
37 38.7
9.17804
0.0548
3.68
4.21
17
3 6.4
197
10 46 50.53
47 18.42
8 13 54.2
10 21.4
9.17400
0.0565
3.69
4.16
18
3 6.1
198
10 50 24.48
50 52.05
7 46 31.4
42 58.2
9.16987
0.0579
3.69
4.11
19
3 5.7
199
10 53 56.39
54 23.63
7 19 3.3
15 29.9
9.16565
0.0692
3.70
4.06
ao
3 5^
200
10 57 26.22
57 53.13
6 51 30.5
47 57.1
9.16134
0.0604
3.70
3.99
21
3 4.7
201
11 0 53.96
1 20.53
6 23 53.8!20 20 5
9.15696
0.0613
3.71
3.89
22
3 4.2
202
11 4 19.60
4 45.82
5 56 13.9
52 40.8
9.15251
0.0620
8.71
3.75
23
3 3.7
203
11 7 43.12
8 8.99
6 28 31.7
24 59.0
9.14796
0.0625
3.72
3.56
24
3 3.1
204
11 11 4.48
11 29.99
5 0 48.1
57 16.0
9.14328
0.0628
3.72
-3.28
25
3 2.5
205
11 14 23.65
14 48.79
4 33 3.7
29 32.3
9.13847
0.0629
3.73
+2.42
26
3 1.8
206
11 17 40.60
18 5.37
4 5 19.4
148.8
9.13352
0.0628
3.74
3.28
27
3 1.1
207
1120 55.30
21 19.69
3 37 35.9
34 6J2
9.12845
0.0625
3.74
3.56
28
3 0.4
208
1124 7.72
24 31.72
3 9 53.9
6 25.3
9.12324
0.0620
3.75
3.73
29
2 59.6
209
11 27 17.80
27 41.40
2 42 14.0 38 46.6
9.11789
0.0613
3.75
3.85
30
2 58.8
210
1130 25.50
30 48.70
2 14 37.0
11 11.0
9.11240
0.0604
3.76
3.95
81
2 58.0
211
1133 30.82
33 53.61
147 3.7
43 39.2
9.10674
0.0593
3.77
4.04
Aug. 1
2 57.0
212
1136 33.71
36 56.09
1 19 34.9
16 12.0
9.10088
0.0580
3.78
4.11
2
2 56.1
213
1139 34.10
39 56.05
0 52 11.5
48 50 J)
9.09482
0.0565
3.79
4.17
3
2 55.1
214
1142 31.94
42 53.45
4-0 24 54.3
21 35.0
9.08853
0.0548
3.80
4.22
4
2 54.1
215
1145 27.19
45 48.25
-02 16.1
5 33.3
9.08200
0.0529
3.81
4.26
5
2 53.0
216
1148 19.78
48 40J)9
0 29 19.0
32 33.9
9.07522
0.0508
3.82
4.30
6
2 51.9
217
11 51 9.65
5129.80
0 56 13.7
59 26.3
9.06818
0.0485
3.83
4.34
7
2 50.8
218
1153 56.72
54 16.40
1 22 59.4
26 9.7
9.06084
0.0460
3.84
4.38
8
2 49.6
219
1156 40.93
57 0.12
1 49 35.1
52 42.9
9.05315
0.0432
3.85
4.42
9
2 48.3
220
1159 22.18 59 40.88
2 15 59.8
19 4.8
9.04504
0.0400
3.87
4.45
10
2 47.0
221
12 2 0.37
2 18.57
2 42 12.7
45 14.8
9.03650
0.0366
3.88
4.49
11
2 45.7
222
12 4 35.41
4 53.10
3 8 12.9
11 12.0
9.02754
0.0330
3.89
4.52
12
2 44.3
223
12 7 7.20
7 24.37
3 33 59.4
36 55.4
9.01816
0.0290
3.90
4.55
13
2 42.8
224
12 9 35.67
9 52.29
3 59 31.2
62 23.9
9.00827
0.0247
3.92
4.58
14
2 41.3
225
12 12 0.70
12 16.76
4 24 47.3
27 36Ji
8.99775
0.0200
3.94
4.61
15
2 39.7
226
12 14 22.14
14 37.64
4 49 46.6
52 32.2
8.98650
0.0149
3.96
4.64
16
2 38.1
227
12 16 39.84
16 54.76
5 14 27.9
17 9.7
8.97442
0.0094
3.97
4.67
17
2 36.3
228
12 18 53.63
19 7.95
5 38 49.9
41 27.8
8.96148
0.0036
3.99
4.70
18
2 34.4
229
12 21 3.35'21 17.07
6 2 51.4
5 25.2
8.94767
9.9973
4.00
4.73
19
2 32.6
230
12 23 8.8423 21.95
6 26 31.1
29 0.7
8.93268
9.9904
4.02
4.75
20
2 30.7
231
12 25 9.96 25 22.44
6 49 47.6
52 12.9
8.91670
9.9830
4.04
4.78
21
2 28.7
232
12 27 6.54
27 18.37
7 12 39.7
15 0.4
8.89951
9.9750
4.06
4.80
22
2 26.6
233
12 28 58.41
29 9.58
7 35 5.9
37 21.9
8.88086
9.9664
4.07
4.82
23
2 24.5
234
12 30 45.40
30 55.90
7 57 4.8
59 15.9
8.86068
9.9571
4.09
4.85
24
2 22.3
235
12 32 27 A3
32 37.16
8 18 34.7
20 40.9
8.83872
9.9471
4.10
4.87
25
2 19.9
236
12 34 4.01
34 13.17
8 39 34.1
41 35.2
8.81468
9.9363
4.12
4.89
26
2 17.5
237
12 35 35.24
35 43.71
9 0 1.3
157.2
8.78319
9.9246
4.13
4.91
27
2 15.0
238
12 37 0.81
37 8.58
9 19 54.5
21 45.0
8.75894
9.9119
4.15
4.93
28
2 12.3 239
12 38 20.52138 27.58
9 39 11.8
40 56.8
8.72644
9.8980
4.16
4.95
29
2 9.6 240
12 39 34.16139 40.52
9 57 51.3
59 30.6
8 69001
9.8829
4.18
4.98
30
2 6.8 241
12 40 41.53
40 47.19
10 15 51.0
17 24.6
8.64890
9.8666
4.19
5.00
31
2 3.9 242
12 41 42.43
41 47.39
10 33 9.1
34 36.8
8.60199
9.8488
4.20
5.02
Sept. 1
2 0.9 243
12 42 36.66
42 40.93
-10 49 43.5
51 5.2
+8.54767
-9.8292
-4.22
+5.04
318
VENUS, 1855.
For WMhiogtoa Mean Noon and Meftdim Trtnaiu
Mean Sola
ir Time of
Tranaii.
Side-
real
Date.
Apparent
Right Aacenaioo.
Apparent OecUnaUon.
Lof.ofMotionina
Sidereal Minute.
Log. of Factor
for Second Dir a.
Maridiaa
At
Al
Al
At
In R.A.
In Dec
In R.A.
In Dec
1
Moan Noon.
Transit.
Mean Noon.
Timiwit
1 d.
tL m.
h. m. •.
m. a.
O f N
1 If
Sept. 2
1 57.7
245
12 43 24.03
43 27.62
-11 5 32.1
6 47.9
+8.48371
-9.8077
-4.23
+5X)6
i 3
1 54.4
246
12 44 4.34
44 7.27
1120 32.6
24 42.2
8.40654
9.7838
4.25
5.08
1 4
1 51.1
247
12 44 37.41
44 39.68
1134 42.8
35 46.4
8.30969
9.7576
4.26
5.10
5
1 47.6 248
12 45 3.04
45 4.67
1148 0.1
48 67.7
8.18089
9.7280
4.27
5.12
6
1 43.9 249
12 45 21.04
45 22.05
12 0 21.9
1 13.5
7.99178
9.6948
4.27
5.14
7
1 40.2 250
12 45 31.24
45 31.67
121145.4
12 31.0
+7.63752
9.6567
4.28
5.16
8
1 36.3' 251
12 45 33.49
45 33.37
12 22 7.9
22 47.5
-7.08961
9.6132
4.28
5.18
9
1 32.2
252
12 45 27.67
45 27.03
12 31 26.6
32 0.3
7.83728
9.5624
4.29
5.20
10
1 28.1
253
12 45 13.66
45 12.54
12 39 38.7
40 6.6
8.10052
9.5023
4.29
5.22
11
1 23.8
254
12 44 51.36
44 49.80
12 46 41.4
47 3.9
8.26423
9.4293
4.29
5.24
12
1 19.3
255
12 44 20.74
44 18.79
12 52 32.0
52 49.3
8JI8309
9.3380
4.30
5.26
13
I 14.7
256
12 43 41.77
43 39.51
12 57 7.9
57 20.2
8.47632
9.2177
4.30
5.27
14
1 10.1
257
12 42 54.50
42 51.99
13 0 26.5
0 34.2
8.55252
9.0430
4.30
5.29
15
I 5.3
258
12 4159.00
41 56.30
13 2 25.1
2 28.7
8.61674
-8.7315
+1.6457
4.29
630
16
I 0.2
259
12 40 55.39
40 52.55
13 3 1.2
3 1.1
8.67159
4.28
531
17
0 55.1
260
12 39 43.86
39 40.96
13 2 12.6
2 9.2
8.71913
8.8035
4.27
532
- 18
0 49.9
261
12 38 24.63
38 21.75
12 59 57.5
59 51.3
8.76056
9.0947
4.25
533
19
0 44.6
262
12 36 58.00
36 55.21
12 56 14.3
56 6.0
8.79694
9ii691
4.23
5.33
20
0 39.0
263
12 35 24.31
35 21.67
12 51 2.2
50 52.5
8.82855
9.3940
4J20
534
21
0 33.4
264
12 33 44.07
33 41.66
12 44 20.6
44 10.2
8.85587
9.4912
4.16
533
22
0 27.8
265
12 31 57.80
31 55.69
12 36 9.7
35 59J>
8.87934
9Ji701
4.12
533
23
0 22.1
266
12 30 6.09
30 4.34
12 26 30.7
26 21.2
8.89927
9.6358
4.06
532
24
0 16.2
267
12 28 9.60
28 8.26
12 15 25.1
15 17.2
8.91576
9.6920
3.99
531
25
0 10.2
268
12 26 9.06
26 8.19
12 2 55.5
2 49.9
8.92903
9.7396
3.90
5.29
26
0 4.3
269
12 24 5.21
24 4.84
1149 4.9
49 2.3
8.93931
9.7810
3.79
5.27
26
23 58.3
270
21 58.99
33 58.3
1 27
23 52.3
271
12 21 58.84
19 51.48
1133 57.2
17 42.5
8.94656
9.8170
3.61
5.24
1 28
23 46.2
272
12 19 50.79
17 43.18
11 17 37.0
0 19.8
8.95074
9.8480
-2.59
5.21
29
23 40.2
273
12 17 41.94
15 34.96
10 60 9.4
41 55.7
8.95193
9.8748
+2.58
5.17
30
23 34.1
274
12 15 33.19
13 27.75
10 4140.0
22 36.7
8.95004
9.8978
3.59
5.13
Ocu 1
23 28.1
275
12 13 25.46
1122.41
10 22 15.3
2 29.7
8.94497
9.9172
3.67
5.07
2
23 22.2
276
12 11 19.65
9 19.82
9 62 2.3
41 42.3
8.93677
9.9332
3.83
4.99
3
23 16.2
277
12 9 16.62
7 20.70
9 41 8.8
20 22.3
8.92562
9.9460
3.93
439
4
23 10.4
278
12 7 17.12
5 25.78
8 79 42.7
58 37.2
8.91143
9.9555
4.01
4.78
5
23 4.7
279
12 5 21.69
3 35.79
8 57 51.7
36 34.8
8.89395
9.9622
4.08
4.61
6
22 59.1
280
12 3 31.66
1 51.46
8 35 43.5
14 22.5
8.87281
9.9665
4.14
436
7
22 53.5
281
12 147.15
0 13.41
7 73 25.7
52 7.8
8.84751
9.9685
4.19
+3.68
8
22 48.1
282
11 60 9.05
58 42.21
7 51 6.9
29 58.1
8.81794
9.9681
4.23
-4.12
9
22 42.8
283
1158 37.84
57 18.30
7 28 51.6
8 0.6
8.78390
9.9652
4.25
449
10
22 37.6
284
11 57 14.01
56 2.07
6 66 50.1
46 22.2
8.74462
9.9598
4J7
4.68
11
22 32.5
285
1155 57.93
54 53.87
6 45 8.3
25 9.0
8.69933
9.9521
4.29
430
12
22 27.6
286
11 54 49.97
53 54.01
6 23 52.3
4 26.8
8.64639
9.9424
4.30
438
13
22 22.9
287
11 53 50.45
53 2.74
5 63 8.0
44 20.7
8.58389
9.9305
4.31
4.95
14
22 18.3 288
11 52 59.58
52 20.22
6 43 0.5
24 55.5
8.50872
9.9163
4.32
bJOO
15
22 13.8
289
1152 17.54
51 46.58
5 23 34.6
6 15.7
8.41660
9.8999
4.33
5.05
16
22 9.5
290
11 5144.44
51 21.86
4 64 54.7
48 25.0
8.29816
9.8812
434
5X>%
17
22 5.3
291
115120.33
51 6.10
4 47 4.6
3126.5
8.13412
9.8603
4.34
5.11
18
22 1.2
292
1151 5.23
50 59.28
4 30 7.3il5 23.1
7.86736
9.8370
4^
5.13
19
21 57.4
293
1150 59.12 51 1.38
4 14 5.8
0 17.4
-7.05383
9.8113
433
5.15
20
21 53.6
294
11 51 1.98|51 12.35
3 59 2.6
46 11.2
+7.70615
9.7828
433
5.16 1
21
21 50.0 295
1151 13.74|51 32.06
3 44 59.5
33 6.0
8.05008
9.7514
433
5.17'
22
21 46.6 1 296
11 5134.28,52 0.35
3 31 57.9
21 3.1
8.23714
9.7169
432
5.18'
23
21 43.2' 297
1152 3.43
52 37.07
3 19 58.9
10 3JI
8.36526
9.6791
431
5.18,
24
21 40.0: 298
11 52 41X>2
53 22.04
3 9 3.6
0 6.9
8.46209
9.6371
430
5.18*
25
21 37.0, 299
1153 26.86
54 15.07
2 59 12.1
51 14JI
8.53983
9.5897
4.29
5.19 j
26
21 34.1 j 300
1154 20.79 55 15.95
2 50 24.6
43 25.4
8.60417
9.5365
4.28
6.19'
1 27
21 31.3 301
11 55 22.58,56 24.44
2 42 41.3
36 39.7
8.65854
9.4766
4.27
5.19
28
21 28.6 302
11 56 31.97 57 40.32
2 36 1.5
30 56.7
8.70544
9.4079
4.26
5.18'
29
21 26.0 303
11 57 48.74 59 3.36
2 30 24.4
26 15.7
8.74646
9.3274
4.25
6.181
30
21 23.7 304
11 59 12.68 60 33.34
2 25 49.4
22 35.8
8.78305
9J284
4.23
B.17
1 31
21 21.4 305
12 0 43.56' 2ML03
- 2 22 15.6
19 56.1
+8J1583
+9.1034
+4.21
-6.16
VENUS, 1855.
For Washington M«ao Noon and Meridian Transit.
319
Msnn Solar Tims of
Meridian Transiu
Apparent Declination.
Log. of Motion in a
Sidereal Minute.
Lof. of Factor
for Second Dirs
Dale
At M. Noon.
At Trans.
At M. Noon.
AiTrans.
lnR.A.
In Dec.
In RA.
In Dec.
d.
h. m.
h. m. 1.
ra. a.
o t u
1 u
Nor. 1
21 19.1
306
12 2 21.13
3 53.19
- 2 19 42.1
18 15.1
+8.84523
+8.9348
+4.20
-5.15
2
21 17.1
307
12 4 5.15
5 42.56
2 18 7.5
17 31.7
8 87160
8.6585
4.18
5.14
3
21 15.1
308
12 5 55.36
7 37.89
2 17 30.5
17 44.7
8.89549
+8.1227
4.16
5.13
4
21 13.1
309
12 7 51.52
9 38.96
2 17 49.7
18 52.7
8.91737
-8.5128
4.14
5.12
5
21 11.3
310
12 9 53.41
11 45.55
2 19 3.9
20 54.1
8.93736
8.8464
4.12
5.10
6
21 9.5
311
12 12 080
13 57.45
2 21 11.6
23 47.2
8.95578
9.0256
4.10
5.09
7
21 7.9
312
12 14 13.48
16 14.46
2 24 11.0
27 30.5
8.97273
9.1528
4.08
5.08
8
21 6.4
313
12 16 31.23
18 36.35
2 28 0.5
32 2.6
8.98842
9.2467
4.07
5.07
9
21 4.9
314
12 18 53.85
21 2.92
2 32 38.8
37 22.1
9^0291
9.3218
4.05
5.06
10
21 3.4
315
12 21 21.13
23 33.99
2 38 4.3
43 27.3
9.01641
9.3846
4.03
5.04
11
21 2.1
316
12 23 52.89
26 9.38
2 44 15.3
50 16.8
9.02898
9.4363
4.01
5.03
12
21 0.8
317
12 26 28.95
28 48.93
2 51 10.5
57 49.2
9.04071
9.4815
4.00
5.02
13
20 59.5
318
12 29 9.15 ;31 32.49
2 58 48.5
66 2.7
9.05172
9.5217
3.98
5.00
14
20 58.4
319
12 31 53.33 '34 19.89
3 7 7.5
14 55.8
9.06204
9.5566
3.97
4.99
15
20 57.4
320
12 34 41.34
37 11.00
3 16 5.9
24 27.4
9.07174
9.5877
3.95
4.97
16
20 56.4
321
12 37*33.04
40 5.68
3 25 42.6
34 36.2
9.08091
9.6160
3.93
4.95
17
20 55.4
322
12 40 28.29
43 3.83
3 35 56.3
45 20.5
9.08958
9.6420
3.92
4.93
18 20 54.5
323
12 43 26.99
46 5.31
3 46 45.5
56 39.0
9.09777
9.6654
3.90
4.92
19
20 53.6
324
12 46 29.00
49 10.00
3 58 8.9
68 30.5
9.10556
9.6867
3.89
4.90
20
20 52.8
325
12 49 34.20
52 17.80
4 10 5.1
20 53.5
9.11295
9.7061
3.87
4.88
21
20 52.0
326
12 52 42.50
55 28.60
4 22 32.6
33 46.8
9.11997
9.7240
3.86
4.86
22 20 51.3
327
12 55 53.80
58 42.30
4 35 30.2
47 9.2
9.12663
9.7405
3.84
4.84
23
20 50.7
328
12 59 7.98
61 58.80
4 48 56.7
60 59.3
9.13296
9.7556
3.83
4.82
24
20 50.1
329
13 2 24.95
5 18.06
5 2 50.6
15 15.7
9.13906
9.7696
3.82
4.80
25
20 49^
330
13 5 44.65
8 40.01
5 17 10.7
29 57.1
9.14493
9.7825
3.81
4.78
26
20 49.0
331
13 9 7.02
12 4.58
5 31 55.7
45 2.5
9.15057
9.7945
3.80
4.76
27
20 48J5
332
13 12 32.00
15 31.66
6 47 4.5
60 30.5
9.15598
9.8055
3.79
4.73
28
20 48.0
333
13 15 59.48
19 1.19
6 2 35.7
16 19.8
9.16118
9.8156
3.77
4.71
29
20 47.6
334
13 19 29.40
22 33.12
6 18 28.0
32 29.1
9.16617
9.8250
3.76
4.C8
30
20 47.2
335
13 23 1.71
26 7.37
6 34 40.2
48 57.2
9.17096
9.8336
3.75
4.65
Dec 1
20 46.9
336
13 26 36^2
29 43.87
6 51 11.0
65 42.8
9.17556
9.8414
3.74
4.62
2
20 46.7
337
13 30 13.16
33 22.55
7 7 59.1
22 44.6
9.17998
9.8486
3.73
4.59
3
20 46.4
338
13 33 52.18
37 3^8
7 25 3.1
40 1^
9.18423
9.8551
3.71
4.56
4
20 46.2
339
13 37 33J53
40 46.29
7 42 21.9
57 31.8
9.18834
9.8610
3.70
4.52
5
20 46.0
340
13 41 16.54
44 31.24
7 59 54.3
75 14.9
9.19234
9.8664
3.69
4.48
6
20 45.8
341
13 45 1.79
48 18.19
8 17 39.2
33 9.5
9.19623
9.8713
3.68
4.44
7
20 45.7
342
13 48 49.04
52 7.09
8 35 35.4
51 14.4
9.20000
9.8757
3.67
4.38
8
20 45.6
343
13 52 38.23
55 57.92
8 53 41.7
69 28.3
9.20366
9.8795
8.67
4.33
9
20 45.5
344
13 56 29.33
59 50.66
9 11 56.8
27 50.0
9.20723
9.8827
3.66
4.27
10
20 45.4
345
14 0 22.33
3 45.27
9 30 19.5
46 18.5
9.21072
9.8855
3.65
4.20
11
20 45.4
346
14 4 17.19
7 41.73
9 48 48.8
4 52.6
9.21414
9.8879
3.64
4.12
12
20 45.5
347
14 8 13.89
11 39.98
10 7 23.6
23 31.4
9.21748
9.8898
3.64
4.03
13
20 45.5
348
14 12 12.38
15 40.01
10 26 2.9
42 13.8
9.22074
9.8913
3.63
3.92
14
20 45.6
349
14 16 12.65
19 41.81
10 44 45.6
60 58.7
9.22393
9.8924
3.63
3.78
15
20 45.7
350
14 20 14.68
23 45.36
11 3 30.8
19 45.3
9.22707
9.8932
3.62
3.56
16
20 45.8
351
14 24 18.44
27 50.64
11 22 17.5
38 32.3
9.23015
9.8935
3.62
-2.99
17
20 46.0
352
14 28 23.93
31 57.65
1141 4.5
57 18.5
9.23320
9.8934
3.61
+3.23
18
20 46.2
353
14 32 31.14
36 6.40
11 59 50.7
76 3.4
9.23623
9.8929
3.61
3.61
19
20 46.4
354
14 36 40.09
40 16.87
12 18 35.3 34 45.9
9.23923
9.8920
3.61
3.82
20
20 46.7
355
14 40 50.75
44 29.04
12 37 17J5
53 25.0
9.24220
9.8908
3.61
3.95
21
20 47.1
356
14 45 3.10
48 42.91
12 55 55.6
71 59.5
9.24512
9.8892
3.61
4.06
22
20 47.4
357
14 49 17.13
52 58.46
13 14 29.2
30 28.6
9.24799
9.8873
3.61
4.14
23
20 47.7
358
14 53 32.85
57 15.68
13 32 57.3
48 51.4
9.25082
9.8850
3.60
4.20
24
20 48.1
359
14 57 50.23
61 34.57
13 51 18.8
67 6.7
9.25362
9.8822
3.60
4.26
25
20 48.5
360
15 2 9.28
5 55.11
14 9 32.7
25 13.5
9.25638
9.8790
3.60
4.32
26
20 48.9
361
15 6 29.97
10 17.28
14 27 38.1
43 10.9
9.2.5911
9.8754
3.59
4.37
27
20 49.3
362
15 10 52.28
14 41.08
14 45 33.9
60 58.0
9.26179
9.8713
3.59
4.41
28
20 49.8 363
15 15 16.21
19 6.49
15 3 19.1
18 33.5
9.26444
9.8668
3.58
4.45
29
20 50^
364
15 19 41.74
23 33.50
15 20 52.6
35 56.5
9.26705
9.8618
3.58
4.48
SO
20 50.8
365
15 24 8 86
28 2.07
15 38 13.5
53 5.8
9.26961
9.8563
357
4.51
31
20 51.4
366
15 28 37.54
32 32.16
15 55 20.7
70 0.5
9.27210
9.8503
3.56
4.55
32
20 52.0
367
15 33 7.73
37 3.74
-16 12 13.3
26 39.3
+9 27452
-9.8438
+3.55
+4.58
320
MARS, 1855.
For Wuhingtnn StderMl Noon and Meridian iSvnaH.
Mean Solar Time of
Meridian Tranait.
Side
real
Date.
Ri^ht JUceneion.
Appareoi Declination.
Log. of Motion In a
Sidereal Minute.
Lof . of Factor
ForSMxmdDiflTa.
At Sid. Oh.
Ai
Traiwlt.
At Sid. Oh.
At
Transit.
InR.A.
In Dec
In&A.
In Dec
d.
h. m
h. m. 8. im. e.
0 1 II \ 1 II
< Jan. 1
138.0
0
20 18 37.63 2123.55
-20 48 64.8 '39 46.8
+ 9.13372
+ 9.6477
- 2.96
-f 4.64
2
1 37 3
1
20 21 63.26 24 39.40
20 38 7.7
28 46.1
9.13287
9.6573
2.97
4.54
3
136.6
2
20 25 8.61127 54.86
20 27 6.3
17 31.1
9.13201
9.6666
2.97
4.53
4
1 35.9
3
20 28 23.57 '31 9.93
20 15 50.7
6 2.2
9.13114
9.6756
2.98
4.52
5
135.2
4
20 31 38.14
34 24.61
19 64 21.3
54 19.6
9.13027
9.6843
2.99
4.51
6
134.5
5
20 34 52.32
37 38.88
19 52 38.3
42 23.6
9.12939
9.6926
2.99
4.51 ,
7
1 33.8
6
20 38 6.10140 52.75
19 40 42.0
30 14.3
9.12849
9.7006
3.00
4.50
8
1 33.1
7
20 41 19.48 44 6.22
19 28 32.5
17 51.9
9.12758
9.7083
3.00
449
9
1 32.4
8
20 44 32.46147 19.27
19 16 lO.O
5 16.7
9.12666
9.7158
3.01
4.48
10
1 31.6
9
20 47 45.03 50 31.90
18 63 34.8
52 28.9
9.12573
9.7231
3.01
447
U
130.9
10
20 50 67.18 53 44.11
18 50 47.1
39 28 9
9.12478
9.7302
3.02
4.47
12
130.1
11
20 54 8.90 56 55.89
18 37 47.2
26 16.8
9.12382
9.7370
3.02
4.46 1
13
1 29.4
12
20 57 20.20
0 7.23
18 24 36.3
12 52.7
9.12285
9.7436
3.02
4.45
14
1 28.6
13
21 0 31i)6
3 18.14
17 71 11.5
59 16.9
9.12187
9.7499
3.02
4.44
15
1 27.9
14
21 3 41.49
6 28.61
17 57 36.1
45 29.6
9.12088
9.7560
3.02
4.43
16
1 27.1
16
21 6 51.49
9 38.64
174349.3
31 31.1
9.11989
9.7619
3.03
443
17
126.3
16
21 10 1.05
12 48.23
17 29 61.3
17 21.6
9.11888
9.7676
8.03
442
18
1 25.6
17
21 13 10.17
15 57.38
17 15 42.3
3 1.0
9.11786
9.7732
3.03
441
19
1 24.8
18
21 16 18.84
19 6.07
16 6122.5
48 29.9
9.11684
9.7786
3.03
4.40
20
1 24.0
19
21 19 27.06
22 14.30
16 46 52.1
33 48.3
9.11581
9.7839
3.03
4.39
21
1 23.2
20
21 22 34.84,25 22.09
16 32 11.3
18 56.4
9.11477
9.7890
3.04
4.39
22
1 22.4
21
21 25 42.18 28 29.42
16 17 20.3
3 54.5
9.11372
9.7939
3.04
4.38
23
1 21Ji
22
21 28 49.06 31 86.29
15 62 19.3
48 42.7
9.11267
9.7987
3.04
437
24
1 20.7
23
2131 55.47:3442.70
15 47 8.5
33 21.1
9.11162
9.8033
3.04
4JI6
25
1 19.8
24
2135 1.42
37 48.65
15 31 47.9
17 50.1
9.11056
9.8078
3.04
4.35
26
1 19.0
25
21 38 6.93
40 54.15
15 16 17 9
2 9.8
9.10950
9.8122
3.04
4.34
27
1 18.1
26
21 41 12.00
43 59 20
14 60 38.7
46 20.4
9.10844
9.8164
304
4.33
28
1 17.3
27
21 44 16.61
47 3.78
14 44 60.5
30 22.1
9.10738
9.8205
8.04
4.32
29
1 16.4
28
21 47 20.76
50 7.90
14 28 53.4
14 15.2
9.10632
9.8244
3.04
4.31
30
1 15.6
29
21 50 24.45
53 11.58
13 72 47.8
58 0.0
9.10526
9.8282
3.03
4.30
31
1 14.7
30
21 53 27.70
56 14.81
13 56 33.9
41 36 6
9.10421
9.8319
3.03
4.29
Feb. 1
1 13.8
31
21 56 30.51 59 17.59
13 40 11.9
25 5JJ
9.10317
9.8355
8.02
4.28
2
1 12.8
32
21 59 32.87
2 19.92
13 23 42.0
8 26.2
9.10214
9.8389
3J02
4.27
3
1 11.9
33
22 2 34.78
5 21.81
12 67 4.4
51 39.6
9.10111
9.8422
3.01
4.26
4
1 10.9
34
22 5 36.26
8 23.29
12 60 19.3
34 45.6
9.10009
9.8444
3.01
4.25
5
1 lOX)
35
22 8 37.31
11 24.36
12 33 26.9
17 44.5
9.09908
9.8485
3.00
4.23
6
1 9.0
36
22 1137.96
14 25.03
12 16 27.4
0 36.5
9.09808
9.8515
3.00
4.22
7
1 8.1
37
22 14 38.22il7 25.30
11 59 21X)
43 21.7
9.09710
9.8.544
2.99
4.21
8
1 7.1
38
22 17 38.08
20 25.16
11 42 7.9
26 0.3
9.09613
9.8572
2.99
4.20
9
1 6.2
39
22 20 37.54
23 24.63
11 24 48.3
08 32.5
9.09517
9.8599
2.98
4.18
10
1 5.2
40
22 23 36.62
26 23.72
10 67 22.3
50 68.7
9.09422
9.8624
2.97
4.17
11
1 4.2
41
22 26 35.32
29 22.43
10 49 50.2
33 19.0
9.09329
9.8648
2.97
4.16
12
1 8.2
42
22 29 33.64
32 20.76
10 32 12.2
15 33Ji
9.09237
9.8671
2.96
4.13
13
1 2.2
43
22 32 31.58135 18.72
9 74 28.5
57 424
9.09146
9.8694
2.96
4.11
14
1 1.2
44
22 35 29.15 38 16.31
9 56 39.3
39 46.1
9.09055
9.8716
2,95
4X>9
15
1 0.2
45
22 38 26.36 41 13.54
9 38 44.9
21 44.7
9.08965
9.8738
2.94
4.07
16
0 59.2
46
22 41 23.21144 10.40
9 20 45.5
3 38.5
9.08876
9.8758
2.94
4.05
17
0 58.2
47
22 44 19.69 47 6.91
8 62 41.2
45 27.6
9.08788
9.8777
2.93
4M
18
0 57.3 48
22 47 15.82 50 3.07
8 44 32J'27 12.4
9.08702
9.8795
2.92
4.01 1
19
0 56.3 49
22 50 11.60 52 58.88
8 26 19.1 8 63.0
9.08617
9.8812
2.92
3.99'
20
0 65.3 50
22 53 7.03 55 54.16
7 68 1.8 50 29.5
9.08534
9.8828
2.91
3.96,
21
0 54.3 51
22 56 2.14 58 49.53
74940.4:32 2.2
9.08452
9.8843
2.90
3.94!
22
0 53.3; 52
22 58 56.94 1 44.37
7 31 15.2 13 31.4
9.08371
9.8857
2.89
3.91 ,
23
0 52.3| 53
23 1 5142 4 38.89
6 72 46.5 54 57 J
9.08292
9.8870
2.88
3.891
24
0 61.3 54
23 4 45.58 7 33.09
6 54 l4Ji36 19.9
9.08214
9.8883
2.87
3.86
25
0 50.3! 55
23 7 39.42 10 26.99
6 35 39.3 '17 39.6
9.08138
9.8895
2.85
3.831
26
0 49.31 56
23 10 32.95 13 20.59
6 77 1. 158 56.6
9.08064
9.8906
2.84
3.80
27
0 48.2 57
23 13 26.19 16 1.3.90
6 58 20.3140 IIJ
9.07992
9.8916
283
3.78
28
0 47.2 58
23 16 19.15 19 6.94
6 39 37.1 '21 23 6
9.07922
9.8925
2.A2
3,73
Mar. 1
0 46.1 59
23 19 11.83 21 59.71
6 20 51.7 1 2 33.9
9.07855
9.8933
2.80
3.69
2
0 45.1
60 1
23 22 4.25 1 24 .52.22
- 4 62 4.2
43 42.2
♦• 9.07790
+ 9.8941
- 2.79
+ 3.64
MARS, 1855.
For WMhInglon Sidereal Noon and Meridian Traneit.
321
Mean Solar Time of
Bleridiaa Tranaii.
Side
real
Appannt
Apparent DecUnation.
Loa. of Motion in a
Sidereal Minute.
Lof. of Factor
For Second DilPa. |
Date.
AtSkLOh.
Tianait.
At Sid. Oh.
Transit.
Ai
In R.A.
In Dec.
InR.A.
In Dec.
d.
h. rn.
h. m. e.
m. 8.
O 1 N
1 u
Mar. 8
0 44.0
61
23 24 56.41
27 44.48
- 4 43 14.7
24 48.8
+ 9.07727
+ 9.8948
- 2.77
+ 3.59
4
0 42.9
62
23 27 48.32
30 36.50
4 24 23.5
5 53.9
9.07666
9.8954
2.76
3.55
5
0 41.9
63
23 30 39.99
33 28.28
3 65 30.8
46 57.8
9.07606
9.8960
2.74
3.49
6
0 40.8
64
23 33 31.44
36 19.84
3 46 36.9
28 0.4
9.07548
9.8965
2.72
3.41
7
0 39.7
65
23 36 22.66
39 11.19
3 27 41.8
9 1.9
9.07492
9.8969
2.70
333
8
0 88.6
66
23 39 13.66
42 02.34
2 68 45.6
50 2.6
9.07439
9.8972
2.68
+ 3.23
9
0 37.5
67
23 42 4.46
44 53.29
2 49 48.5
31 2.6
9.07388
9.8975
2.66
10
0 36.4
68
23 44 55.08
47 44.05
2 30 50.8
12 2.2
9.07339
9.8977
2.64
11
0 35.3
69
23 47 45.61
50 34.64
1 71 52.6
53 1.5
9.07293
9.8978
2.62
12
0 34.2
70
23 50 35.76
53 25.07
1 52 54.1
3i 0.7
9.07249
9.8979
2.69
13
0 33.1
71
23 53 25.84
56 15.35
1 33 55.6
15 0.0
9.07207
9.8979
2.57
14
0 32.0
72
23 56 15.78
59 5.48
0 74 57.2
55 59.6
9.07167
9.8978
2.55
73
23 59 5.58
.
0 55 59.0
9.07129
9.8976
2.53
15
0 30.9
74
0 1 55.23
1 55.47
0 37 1.3
36 69.8
9.07094
9.8974
2.50
- 3.29
16
0 29.8
75
0 4 44.74
4 45.30
- 0 18 4.3
18 0.7
9.07061
9.8971
2.48
3.38
17
0 28.7
76
0 7 34.12
7 35.01
+ 00 51.7
0 57.6
9.07030
9.8967
2.46
3.45
18
0 27.6
77
0 10 23.36
10 24.58
0 19 46.7
19 54.8
9.07000
9.8962
2.43
3.52
19
0 26.5
78
0 13 12.48
13 14.03
0 38 40.5
38 50.7
9.06971
9.8957
240
3.57
20
0 25.3
79
0 16 1.50
16 3.38
0 57 32Ji
57 45.0
9.06944
9.8951
2.38
3.62
21
0 24J2
80
0 18 50.41
18 52.62
1 16 23.0
16 37.7
9.06918
9.8944
2.35
3.67
22
0 23.1
81
0 21 39.23
21 41.77
135 11.8
35 28.7
9.06894
9.8936
2.32
3.71
23
0 22.0
82
0 24 27.96
24 30.83
1 53 58.5
54 17.6
9.06872
9.8928
- 2.29
3.75
24
0 20.9
83
0 27 16.61
27 19.81
2 12 43.0
13 4.3
9.06852
9.8919
3.78
25
0 19.7
84
0 30 5.20
30 8.73
2 31 25.0
31 48.4
906833
9.8909
3.81
26
0 18.6
85
0 32 53.73
32 57.59
2 50 4.4
50 29.9
9.06816
9.8899
3.83
27
0 17.5
86
0 35 42.21
35 46.39
3 8 41.1
9 8.7
9.06801
9.8888
3.86
28
016.4
87
0 38 30.64
3835.13
8 27 14.9
27 44.7
9.06788
9.8877
3.88
29
0 15.2
88
0 41 19.02
41 23.81
3 46 45.7
46 17.6
9.06778
9.8865
3.90
SO
0 14.1
89
0 44 7.34
44 12.46
4 4 13.4
4 47.3
9.06770
9.8852
3.92
31
0 12.9
90
0 46 55.62
47 1.09
4 22 37.6
23 13.5
9.06764
9.8838
3.94
Apr. 1
0 11.8
91
0 49 43.88
49 49.70
4 40 58.1
41 36.0
9 06761
9.8824
3.96
2
0 10.7
92
0 52 32.15
52 38.30
4 59 14.9
59 64.8
9.06761
9.8809
3.98
3
0 9.6
93
0 55 20.42
55 26.90
6 17 27.7
18 9.6
9.06763
9.8793
4.00
4
0 8.4
94
0 58 8.70
58 15.51
6 35 36.4
36 20.3
9.06768
9.8777
4.01
5
0 7J9
95
1 0 57X)0
1 4.14
5 53 40.7
54 26.5
9.06775
9.8760
4.03
6
0 6J8
96
1 8 45.32
3 52.79
6 1140.4
12 28.1
9.06784
9.8742
4.04
7
0 5.1
97
1 6 33.68
6 41.47
6 29 35.5
30 25.1
9.06795
9.8724
4.06
8
0 4.0
98
1 9 22.08
9 30.20
6 47 26.0
48 17.5
9.06808
9.8706
4.07
9
0 2.8
99
1 12 10.54
12 19.00
7 5 11.9
6 5.3
9.06822
9.8686
4.09
10
0 1.7
100
1 14 59.07
15 7.87
7 22 53.0
23 48.2
9j06838
9.8665
+ 2.23
4.10
11
0 0.6
101
1 17 47.67
17 56.80
7 40 29.0
41 26.0
9.06866
9.8644
2.27
4.11
11
23 59.5
102
1 20 36U)5
20 45.80
7 57 59.9
58 58.7
9.06875
9.8622
2.29
4.12
12
23 584
103
1 23 25.10
23 34.89
8 15 25.7
16 26.2
9.06895
9.8599
2.31
4.13
13
23 57.2
104
1 26 13.94
26 24.06
8 32 46J3
33 48.5
9.06917
9.8575
2.33
4.14
14
23 56.1
105
129 2.86
29 13.32
8 50 M
51 5J3
9.06940
9.8551
2J55
4.15
15
23 55.0
106
1 31 51.86
32 2.66
9 7 10.6
8 16.1
9.06963
9.8526
2.35
4.16
16
23 53.9
107
1 34 40.95
34 52.08
9 24 13.6
25 20.7
9.06987
9.8500
2.36
4.17
17
23 52.8
108
1 37 30.12
37 41.58
9 41 10J3
42 19.0
9.07011
9.8473
2.38
4.18
18
23 51.6
109
1 40 19.38
40 31.18
9 58 0.5
59 10.8
9.07036
9.8445
2.40
4.19
19
23 50.5
110
143 8.74
43 20.88
10 14 44.1
16 55.9
9.07062
9.8416
2.42
4.20
20
23 49.4
111
145 58.20
46 10 68
10 31 20.9
32 34.1
9.07090
9.8386
244
4.21
21
23 48.3
112
1 48 47.76
49 0.58
10 47 50.7
49 5.3
9.07119
9.8355
2.46
4.22
22
23 47.2
113
1 51 37.43
5150.60
11 4 13.4
5 29.4
9.07149
9.8324
2.48
4.23
23
23 46.1
114
1 54 27.22
54 40.75
1120 28.9
21 46.2
9.07180
9.8292
2.49
4.24
24
23 45.0
115
1 57 17.14
57 31.02
1136 37.0
37 55.5
9.07212
9.8259
2iil
4.24
25
23 43.9
116
2 0 7.21
0 21.43
11 52 37.6
53 67.3
9.07246
9.8225
2.52
4.25
26
23 42.8
117
2 2 57.42
3 11.99
12 8 30.6
9 51.6
9.07282
9.8190
2.54
4.26
27
23 41.7
118
2 6 47.77
6 2.69
12 24 15.9
25 38.2
9.07320
9.8154
2.55
4.27
28
23 40.6
119
2 8 38.27
8 53.54
12 39 53.4
41 16.9
94)7369
9.8117
2.57
4.28
29
23 39.5
120
2 11 28.93
1144.55
12 55 23.1
56 47.7
9.07400
9.8080
2.58
4.28
30
23 38.4
121
2 14 19.76
14 36 73
+13 10 44.7
12 10.4
f 9X)7442
+ 9.8042
+ 2.t»9
- 4.29
41
322
MARS, 1855.
For Washington Sidereal Noon and Meridian TrmtH.
Mean Solar Time of
Meridian Tranaiu
Side
real
Dau.
RifhlJUcenaion.
Apparent Declination.
Lof . of Motion in a
Sidereal Minute.
Lof. of Factor
For Second DifPe.
At Sid. Oh.
At
Transit.
At Sid. Oh.
At
Tnuuit.
InR.A.
In Dec
lnR.A.
In Dec.
d.
h. m. 1
h. m. B.
m. u.
0 1 It
1 II
Maj 1
23 37.3 122
2 17 10.76
17 27.08
+13 25 58.2
27 24.9
+ 9X)7484
+ 9.8003
+ 2.60
-4.30
S
23 36.2 123
2 20 1.93
20 18.60
13 41 3.3
42 31X)
9U)7527
9.7963
2.61
4.31
3
23 35.M24
2 22 53.27
23 10.30
13 56 0.0
57 28.6
9U)7570
9.7922
2.62
4.31
4
23 34.1 125
2 25 44.78
26 2.18
14 10 48.1
12 17.7
9.07613
9.7880
2.62
4.32
5
23 33.0 126
2 28 36.46,28 54.23
14 25 27.5
26 58.0
9.07657
9.7837
2.63
4.33
6
23 31.9127
2 31 28JJ2 31 46.45
14 39 58.1
4129.5
9X)7702
9.7793
2.63
4.33
7
23 30.9 128
2 34 20.36 34 38.85
14 54 19.9
55 52.0
9.07748
9.77*8
2.63
4.34
8
23 29.8 129
2 37 12.58 37 31.42
15 8 32.6
10 5.4
9.07794
9.7702
2.63
4.34
9
23 28.8 130
2 40 4.97 140 24.17
15 22 36.2
24 9.6
9X)7840
9.7654
2.64
435
10
23 27.7 131
2 42 57.53 143 17.11
15 36 30.6
38 4.6
9.07887
9.7605
2.64
4.36
11
23 26.7! 132
2 45 50.29
46 10.23
15 50 15.6
51 50.1
9/)7934
9.7555
2.64
4.36
12
23 25.6 133
2 48 43.27
49 3.54
16 3 51.0
5 26.0
9.07980
9.7504
2.64
4.37
13
23 24.6 134
2 51 36.36
51 57.04
16 17 16.8
18 52.3
9.7452
2.64
4.37
14
23 23.5 135
2 54 29.66
54 50.72
16 30 32.8
32 8.7
9.08072
9.7398
2.64
4.38
15
23 22.5 136
2 57 23.17
57 44.59
16 43 38.9
45 15.2
9.08118
9.7343
2.64
4.39
16
23 21.5 137
3 0 16.87
0 38.66
16 56 35.0
58 11.6
9.08163
9.7286
2.64
4.39
17
23 20.4 138
3 3 10.75
3 32.91
17 9 20.9
10 57.8
9X)8208
9.7228
2.64
440
18
23 19.4 139
3 6 4.81
6 27.34
17 21 56.4
23 33.5
9.08253
9.7169
2.64
4.40
19
23 18.3 140
3 8 59.05
9 21.96
17 34 21.4
35 58.6
9.08297
9.7108
2.63
441
20
23 I7.3|l41
3 1153.47
12 16.76
17 46 35.9
48 13.1
9.08341
9.7045
2.63
442
21
23 16.3 142
3 14 48.07
15 11.73
17 58 39.8
60 17.0
9X)8384
9.6981
2.63
442
22
23 15.3 143
3 17 42.83
18 6.87
18 10 33.0
12 10.2
9.08427
9.6916
2.62
443
23
23 14.3|l44
3 20 37.76[21 2.18
18 22 15.5
23 52.6
9.08469
9.6849
2.62
443
24
23 13.2 145
3 23 32.86 23 57.66
18 33 47.2
35 24.2
9.08511
9.6781
2.61
4.44
25
23 1 2.2 1 146
3 26 28.12 26 53.30
18 45 ai
46 44.9
9.08553
9.6711
2.61
444
26
23 11.2 147
3 29 23.55 29 49.11
18 56 18.0
57 54.5
9.08595
9.6639
2.60
445
27
23 10.2^148
3 82 19.14 32 45.09
19 7 16.7
8 52.9
9.08636
9.6565
2.59
445
28
23 9.21149
3 35 14.89 35 41.23
19 18 4.1
19 40.0
9.08676
9.6490
2.59
445
29
23 8.2 150
3 38 10.81 38 37.53
19 28 40.3
30 15.8
9J0S7\b
9.6413
238
446
30
23 7.2 151
3 41 6.89
41 34.00
19 39 5.1
40 40.1
9.08754
9.6334
2.57
446
31
23 6.2 152
8 44 3.14
44 30.63
19 49 18.5
50 53.0
9.08792
9.6253
2.56
446
June 1
23 5.2,153
3 46 59.55
47 27.42
19 59 20.4
60 54.3
9.08829
9.6170
2.55
446
2
23 4.3,154
3 49 56.11
50 24.37
20 9 10.7
10 44X)
9X)8865
9.6084
2.54
446 1
3 23 33J155
3 52 52.81
53 21.45
2018 49.4
20 22.0
9.08901
9.5996
2.52
446
4
23 2.3 156
3 55 49.64
56 18.66
20 28 16.3
29 48.2
9/)8936
9.5906
2.51
446
5
23 I.3I157
3 58 46 60
59 16.01
20 37 31.5
39 2.6
9X)8970
9.5813
2.50
446
6
23 0.3 158
4 143.69
2 13.49
20 46 34.9
48 5.1
9.09003
9.5718
249
446
7
22 59.3 159
4 4 40.92
5 11.11
20 55 26.3
56 55.6
9.09035
9.5620
247
446
8
22 58.3 160
4 7 38.28
8 8.86
21 4 5.7
5 34.1
9.09067
9.5520
245
446
9 22 57;)|l61
4 10 35.76
11 6.73
21 12 33.1
14 0.5
9.09098
9.5417
244
446
10
22 56.3'l62
4 13 33.36
14 4.72
21 20 48.5
22 14.6
9.09127
9.5311
242
446
11
22 55.4,163
4 16 31.07
17 2.83
21 28 51.6
30 16.4
9X)9154
9.5201
2.39
446
12 22 54^ 164
4 19 28.89
20 1.04
2136 42.4 38 6.0
9.09178
9.5088
2JI5
446
13
22 53.5,165
4 22 26.81
22 59J35
21 44 20.9 45 43.3
9.09200
9.4971
2.32
447
14
22 52.5^166
4 25 24.83
25 57.75
21 51 47.1
53 8.2
909220
9.4850
+ 2.28
447
15
22 51.5|l67
4 28 22.94 28 56 24
2159 0.9
60 20.6
9.09239
94725
447
16
22 50.6 168
4 31 21.12|31 54.80
22 6 2.3
7 20.5
9X)9256
94596
447
17
22 49.6 169
4 34 19.36134 53.41
22 12 51.2
14 7.8
9.09271
94463
447
18 22 48.7 1 170
4 37 17.65 '37 52.07
22 19 27.6,20 42.5
9X)9284
9.4326
447
19
22 47.7 171
4 40 15.99,40 50.78
22 25 51.3 27 4.6
9X)9295
94184
447
20 22 46.7172
4 43 14.37 43 49.54
22 32 2.4
33 14.1
9X>9303
94037
4.47
21
22 45.8 173
4 46 12.79 46 48.33
22 38 0.9
39 10.9
9.09309
9.3882
447
22 22 44.8 174 |
4 49 11.23 49 47.13
22 43 46.7
44 54.9
9.09313
9.3793
447
23
22 43.9J75
4 52 9.67152 45.94
22 49 19.8
50 26 J
9X)9315
9.3558
448
24 22 42.9 176
4 55 8.12
55 44.77
22 54 40^
55 44 J
9.09315
9.3386
448
25
22 41.9 177
4 58 6^7
58 43.60
22 59 48.1
60 50.6
9.09313
9.3208
448 i
26
22 41.0 178
5 1 5.02
142.41
23 4 43.1
5 43.6
9.09309
9.3020
448
27
22 40.0 179
5 4 3.44
4 41.20
23 9 254
10 23.9
9X>9303
9.2825
448
28
22 39.1,180
5 7 1.83
7 39.96
23 13 55.1
14 51.4
9X)9295
9.2621
448
29
22 38.1 181
6 10 0.19
10 38.68
23 18 12.1
19 6.1
9.09285
9J406
4.48
80 2«37.l|l82
5 12 58.50
13 87 J5
+23 22 16.4
23 8.1
+ 9i>9274
+ 9J180
- 448
MARS, 1855.
For WMhingtop Sidereal Noon md Meridian Transit.
323
Mean SoUrTimo of
Meridian Tranaiu
Side-
raal
Date.
Rightlsceoeion.
Lo^. of Motion In a
Sidereal Minute.
Log. of Factor
ForSecondDUTa.
AtSdOh.
At
Tran.li.
At Sid. Oh.
At
Traiieit.
InR.A.
In Dec
InR.A.
In Dec.
d. h. m.
b. m. e.
m. s.
O 1 N
f f
Juir 1 22 36.2 183
5 15 56.76
16 35.96
+23 26 7.9
26 574
+ 9.09261
+ 9.1942
-4.48
2 22 35.2
184
5 18 54.96
19 34.51
23 29 46.7
30 33.9
9.09246
9.1689
448
3 22 34.3
185
5 21 53X)9
22 32.99
23 33 12.8
33 57.6
9.09230
9.1423
^ 2.25
448
4 22 33.3
186
6 24 51.15
25 31.40
23 36 26.3
37 8.5
9.09212
9.1139
2.28
448
5 22 32^
187
5 27 49.13
28 29.73
23 39 27.1
40 6.7
9.09192
9.0835
2.32
448
6 22 31.3
188
5 30 47.03
31 27.97
23 42 15.2
42 52.2
9.09171
9.0506
2.36
448
7 22 30.4
189
5 33 44.85
34 26.13
23 44 50.7
45 25.0
9J09U8
9.0151
\ 2.39
448
8 22 29.4
190
5 36 42.57
37 24.19
23 47 13.5
47 45.1
9.09123
8.9764
^ 2.43
447
9 22 28.4
191
5 39 40.19
40 22.14
23 49 23.5
49 52.4
9X)9096
8.9341
246
447
10 22 27.4
192
5 42 37.70
43 19.98
23 51 20.8
51 46.9
9.09066
8.8873
2.50
447
11 22 26.4
193
5 45 35.09
46 17.70
23 53 5.5
53 28.8
9.09033
8.8350
2.54
447
12 22 25.5
194
5 48 32.34
49 15.27
23 54 37.7
54 58.1
9.08998
8.7754
2.57
447
13 22 24.5
195
5 5129.43
52 12.68
23 55 57.3
56 14.7
9X)8960
8.7063
2.59
447
14 22 23.5
196
5 54 26.35
55 9.92
23 57 4.2
57 18.7
9.08919
8.6243
2.62
447
15 22 22.5
197
5 57 23.09
58 6.98
23 57 58.5
58 10.1
9.08875
8.5240
2.65
447
16 22 21.5
198
6 0 19.64
1 3.85
23 58 40.4
58 49.0
9.08828
8.3898
2.68
447
17 22 20.5
199
6 3 15.98
4 0.51
23 59 10.0
59 15.5
9.08777
8.2108
2.70
447
18 22 19.5
200
6 6 12.11
6 56.96
23 59 27.2
59 29.6
9.08723
-f- 7.8849
2.73
446
19 22 18.5
201
6 9 8.03
9 53.18
23 59 32.1
59 31.4
9.08667
- ^.9385
2.75
446
20 22 17.5
202
6 12 3.73
12 49.17
23 59 24.8
59 20.9
9.08609
7.9687
2.76
446
21 2216.5
203
6 14 59.18
15 44.91
23 59 5.3
58 58.2
94)8549
8.2507
2.77
446
22 22 15.4
204
6 17 54.37
18 40.39
23 58 33.6
58 23.2
9.08487
8.4191
2.79
446
23 22 14.4
206
6 20 49.31
21 35.62
23 57 49.7
57 36.0
9.08424
8.5385
2.80
445
24 22 13.4
206
6 23 44X)0
24 30.58
23 56 53.7
56 36.8
9.08359
8.6319
2.81
445
25 22 12.4
207
6 26 38.43
27 25.27
23 55 46.1
55 25.8
9.08291
8.7085
2.82
445
26 22 11.3
208
6 29 32.59
30 19.69
23 54 26.6
54 2.9
9.08221
8.7736
2.83
445
27 22 10.3
209
6 32 26.46
33 13.85
23 52 55.2
52 28.1
9.08149
8.8297
2.84
4.45
28 22 9.2
210
6 35 20.04
36 7.69
23 51 12.0
50 41.5
9j08075
8.8790
2.85
444
29 22 a2
211
6 38 13.32
39 1.24
23 49 17.1
48 43.2
9X)8000
8.9230
2.86
4.44
80 22 7.1
212
6 41 6^1
415449
23 47 10.6
46 33.3
9.07924
8.9625
2.87
444
31 22 6.0
213
6 43 59.00
44 47.44
23 44 52.6
44 11.7
9.07847
8.9988
2.88
444
Aug. 1 22 5.0
214
6 46 51.37
47 40.07
23 42 23.1
41 38.6
9.07769
9.0922
2.89
4.43
2 22 4X)
215
6 49 43.42
50 32.37
23 39 42.2
38 54.1
9.07689
9.0630
2.90
4.43
3 22 2.9
216
6 52 35.14
53 24.33
23 36 50.0
35 58.4
9X>7606
9.0916
2.91
442
4 22 1.8
217
6 55 26.52
56 15.96
23 33 46.6
32 51.5
9.07521
9.1181
2.92
442
5 22 0.7
218
6 58 17.56
59 7.24
23 30 32.0
29 33.3
9.07434
9.1428
2.93
442
6 21 59.7
219
7 1 8.25
1 58.17
23 27 6.3
26 3.9
9.07344
9.1661
2.94
441
7 21 58.6
220
7 8 58.59
4 48.75
23 23 29.6
22 23.5
9.07252
9.1882
2.95
441
8 21 57.5
221
7 6 48.58
7 38.96
23 19 42.0
18 32.3
9.07157
9.2090
2.96
4.40;
9 21 56.4
222
7 9 38.20
10 28.80
23 15 43.6
14 30.2
9.07060
9.2286
2.97
4.40
10 21 55.3
223
7 12 27.44
13 18.26
23 1134.4
10 17.3
9.06961
9.2472
2.98
4.40
11 2154.2
224
7 15 16.29
16 7.33
23 7 14.6
5 53.8
9.06860
9.2648
2.99
4.39
12 21 53.0
225
7 18 4.75
18 55.99
23 2 44J3
1 19.8
9.06756
9.2817
2.99
4.39
13 21 51.9
226
7 20 52.80
21 44.25
22 58 3.5
56 35.3
9.06650
9.2977
3.00
4.38
14 21 50.7
227
7 23 40.44
24 32.09
22 63 12.5 5140.61
9.06542
9.3129
3.01
4.38
15 21 49.6
228
7 26 27.66
27 1949
22 48 1M
46 35.8
9.06433
9.3274
3.02
4.38
16 21 48.4
229
7 29 14.44
30 6.45
22 43 0J5
4120.9
9.06322
9.3414
3.03
4.37
17 21 47.3
230
7 32 0.79
32 52.98
22 37 39.1
35 56.0
9.06210
9.3548
3.04
4.37
18 21 46.1
231
7 34 46.70
35 39.08
22 32 8.0
30 21.2
9.06096
9.3678
3.04
4.36
19 21 44.9
232
7 37 32.18
B8 24.74
22 26 27.0
24 36.5
9.05981
9.3803
3.05
4.36
20 21 43.7
233
7 40 17.21
41 9.94
22 20 36.3
18 42.1
9.05864
9.3923
3.05
4.36
21 2142.5
234
7 48 1.79
43 54.69
22 14 36.2
12 38.2
9.05745
9.4037
3.05
4.35
22 21 4U
235
7 45 45.92
46 38.99
22 8 26.7
6 25.0
9.05625
9.4146
3.05
4.35
23 21 40.1
236
7 48 29.61
49 22.84
22 2 7.9
0 2.5
9.05504
94251
3.05
4.34
24 21 38.9
237
7 51 12.84
52 6.23
21 65 39.9
53 30.7
9.05383
9.4353
3.05
4.34
25 21 37.6
238
7 53 55.60
54 49.15
2149 2.7
46 49.8
9.06261
9.4452
3.05
433
26 21 36.4
239
7 56 37.90
57 31.61
21 42 16.6
40 0.0
9.05138
94549
3.06
4.33
27 2135.1
240
7 59 19.74
0 13.60
21 35 21.8
33 1.5
9.05014
94643
3.06
4.32
28 21 33.9
241
8 2 1.13
2 5.5.14
21 28 18.2 25 54.2
9.04889
94733
3.06
4.32
29 21 32.6
242
8 4 42.06
5 36.21
2121 5.8 18 38.1
9.04764
94820
3.06
4.31
30 21 31.4
243
8 7 22.52
8 16.81
t21 13 44.8 11 13.4
+ 9.04638
\ 94903
- 3.06
- 4.30
324
MARS, 1855.
For WMMnfton Sideiml Noon and Merkihui TVanrit.
Mean StAu Time of
Meridiaa Tnotiu
SkW-
red
Date.
d. h. n
Aug. SI 21 30.1 344
Sepc 1 21 28.91345
2 21 27.6 246
3 21 26.3 1 247
4 21 25.0 1 248
5 21 23.7 249
6 21 22.4 250
7 2121.1 251
8 21 19.7 252
9 21 18.4 1 253
17.0 254
15.7 1 255
14.d:2.'(6
1 2.9 1 257
11.5.258
10.1 1259
8.7,260
7.3 261
5.9 262
4.5 J 263
3.0 264
1.6 265
0.2 266
58.7,267
57.2 268
55.8 269
54.3 270
52.8 '271
51.3273
49.8 273
48.2 '274
46.7 1 275
45.2 276
43.61277
42.1 j 278
40.5 279
39.01280
37.4 1 281
35.8 282
34.2 283
32.6 '284
31.0 285
29.4 286
27.8 287
26.1 288
15 20 24.5 289
16 20 22.8 290
17 20 21.2 291
18 20 19.5 292
19 90 17.8 293
10 21
11 21
12 21
13 21
14 21
15 21
16 21
17 21
18 21
19 21
20 21
21 21
22 21
23 20
24 20
25 20
26 20
27 20
28 20
29 20
30 20
Ocu 1 80
2 20
3 20
4 20
5 20
6 20
7 20
8 20
9 20
10 20
11 20
12 20
13 20
14 90
20 20
21 20
22 20
23 90
24 90
25 90
26 90
27 20
98 90
99 90
16.2 294
14.5 1 295
12.8 296
11.1 297
94 298
7.7 299
5.9 300
4.2 301
2.5:302
0.7 303
30 19 59.0 304
Rifhi
Apparei
hi A««i
At Sid. Ob.
h. m. 8.
8 10 02.51
8 12 42X)4
8 15 21.10
8 17 59.69
8 20 37.83
8 23 15.50
8 25 52.69
8 28 29.39
8 31 05.60
8 33 41.32
8 36 16.54
8 38 51.94
8 41 95.49
8 43 59.10
8 46 39.98
8 49 04.95
8 51 37.12
8 54 08.79
8 56 39 95
8 59 10.61
9 01 40.77
9 04 10.43
9 06 39.58
9 09 08.23
9 11 36.40
9 14 04X)8
9 16 31.27
9 18 57.96
9 21 24.17
9 23 49.90
9 26 15.14
9 28 39.90
9 31 04.18
9 33 37.98
9 35 51.29
9 38 14.11
9 40 36.43
9 42 58.27
9 45 19.63
9 47 40J^0
9 50 00.87 50 58.33
9 52 20.75*53 18.23
9 54 40.13 55 37.63
9 56 59.03 57 56.55
9 59 17.46 0 14.99
TnuwiL
10 56.93
13 36.59
16 15.78
18 54.50
21 32.76
24 10.55
26 47.86
29 94.68
32 1.00
34 36.82
37 12.13
39 46.92
42 21.20
44 54.97
47 28.24
50 IJOO
52 33.25
55 4.99
57 86J3
0 6.96
2 37.19
5 6.92
7 36.14
10 4.86
; 12 334)9
15 0.83
17 28.08
19 54.84
;22 21.11
24 46.89
27 12.19
29 37.00
32 1.33
34 25.18
36 48.54
39 11.40
41 33.76
43 55.64
46 17.03
48 37.93
10 01 35.40
10 03 52.85
10 06 09.80
10 08 26.26
10 10 42.25
10 12 57.76
10 15 12.79
10 17 97.33
10 19 41.39
10 91 54.99
10 94 08.15
10 96 90.86
10 98 33.11
10 30 44.90
10 32 56.93
10 35 07.10!36 4.72
2 32.94
4 50.40
7 7-36
9 23.84
1139.83
13 55.34
16 10.38
18 24.93
20 39X)0
29 59.61
25 5.78
27 18.50
29 30.75
3149.53
38 59.85
Appareni DecUnaUon.
AtStd.Oh.
+21 06 15.3
20 58 37.5
20 50 51.4
20 42 57.2
20 34 54.9
90 26 44.7
20 18 96.8
90 10 1.3
19 61 284
19 52 48.1
19 44 0.5
19 35 5.9
19 96 44
19 16 56.1
19 07 41.1
18 58 19.6
18 48 51.7
18 39 17.4
18 29 36.9
18 19 50.3
18 9 57.7
17 59 59.3
17 49 55.2
17 39 45.5
17 99 30.3
17 19 9.7
17 08 43.9
16 58 13.1
16 47 37.4
16 36 56.8
16 26 114
16 15 21.2
16 4 26.5
15 53 27.5
15 42 24.2
15 31 16.7
15 20 5.2
15 8 49.8
14 57 30.6
14 46 7.8
14 34 41.6
14 23 12.1
14 11394
13 60 3.7
13 48 25.0
13 36 434
13 24 59.5
13 13 12.9
12 61 23.8
12 49 32.5
12 37 38.8
12 25 43.0
19 13 45.9
II 61455
I149 44X)
1137 40.8
1195 85.8
11 13 99.2
10 61 91.9
10 49 19.1
+10 37 1.9
At
Tiwwit.
3 40.2
55 58.7
48 9.0
40 11.1
32 6.2
23 514
15 99.9
7 0.8
58 94.3
49 404
40 494
31 514
22 464
13 34.6
4 16.3
54 51.5
45 20.2
35 42.6
25 58.8
16 8.9
6 13.0
56 114
46 4.1
35 51.3
25 33i)
15 9.3
4 404
54 6.6
43 27.9
32 44.3
21 56.0
11 2.9
0 5.3
49 34
37 57.3
26 47.1
15 39.9
4 14.9
52 53.1
4127.8
29 69.1
18 27.2
6 52.2
55 14.1
43 33.1
31494
20 3.1
8 14.3
56 23.1
44 29.6
32 38.9
20 36.2
8 36.5
56 34.9
44 31.5
39 964
90 19.7
8114
56 IS
43 51.1
31394
Lof . of Motion ia a
Sidereal Minute.
IaR.A.
¥ 94)4511
94)4383
9.04255
9.04126
9.03994
9.03869
94)3729
9.03595
9.08459
9.03321
94)3181
9.03039
9.02897
94)9756
94)9619
94)9469
9.09396
9.09188
94)9039
9.01896
94)1751
94)1606
9.01469
94)1318
94)1173
94)1028
94)0883
94)0737
94)0591
94)0446
94)0298
94)0151
94)0003
8.99855
8.99707
8.99558
8.99409
8.99260
8.99110
8.98960
8.98810
8.98659
8.98507
898355
8.98203
8.98051
8.97899
8.97747
8.97594
8.97442
8.97990
8.97137
8.96984
896831
8.96679
8.96697
8.96375
8.96294
8.96073
8J6999
8.95770
loDee.
r 94984
9.5062
9.5137
9.5210
9.5281
9.5351
9.5419
9.5484
9.5647
9.5608
9.5667
9.5794
9.5779
9.6833
9.5886
9.6936
9.5986
9.6088
9.6079
9.6194
9.6167
9.6208
9.6248
9.6987
9.6396
9.6369
9.6398
9.6433
9.6467
9.6600
9.6631
9.6561
9.6690
9.6618
9.6646
9.6673
9.6699
9.6724
9.6748
9.6771
9.6792
9.6812
9.6831
9.6860
9.6868
9.6885
9.6901
9.6916
9.6931
9.6945
9.6958
9.6970
9.6982
9.6993
9.7003
9.7013
9.7099
9.7030
9.7038
9.7045
'^ 9.7061
Lof. of Factor
orseeood DilTs.
For
I0R.A.
•34)6-
34)6
3.06
3.06
34)6
34)6
34)7
8.07
34)7
34)7
34)7
34)8
34)8
84)8
34)8
84)8
3.06
3.08
80.8
84)8
84)8
34)7
84)7
8.07
34)7
34)7
34)7
34)7
34)7
34)7
3.07
3.07
34)7
3.07
34)7
34)7
34)7
34)7
34)7
34)7
84)7
34)7
34)7
8.07
84)7
34)7
3.06
306
84)6
34)6
34)6
34)6
8.05
3.05
34)6
34)5
3.05
34)5
3.05
84)6
3.06H
la Dec
4.29
4.28
4.27 I
4.26;
4.26
4.25
4.24
4.24
4.23
4.22
4.22
4.21
4.20
4^
4.19
4.18
4.17
4.16
4.15
4.15
4.14
4.13
4 12
4.11
4.10
44)9
44)8
44)7
44)6
44)5
44)3
4.02
44)1
3.99
3.98
3.96
3.95
3.93
3.91
3J0
3.88
3.86 I
3.84
8.82
3.81
3.79'
3.77;
3,75
3.73 I
3.71
3.69
3.67,
3.65 1
3.62
3.58
334
330
345
340
3^
MARS, 1855.
325
For Waehln«ton SIdenal Noon and Meridian IHneH.
Mom Solar Time of
Meridian Tnnait
Side
reai
Date
Appurelil
Rigii AweiMton.
Log. of Motltin in a
^dereal Minute;
Lofr of Factor
For Second Dirs
Al 8iU. Oil.
hiTnti.
Al Sid. Oh.
AlTran.
InR.A.
In Dec.
In R.A.
111 Dec.
d.
h. III.
h. m. e.
m. a.
O 1 ff
•
Oct. 31
19 57.2
305
10 37 17Ji2
38 15.13
+10 24 50.7
19 26.7
f 8.95618
? 9.7056
- 3.06
- 3.27
Nor. 1
19 55Ji
306
10 39 27.47
40 25.07
10 12 38.7
7 13.2
8.96464
9.7061
3.06
S
19 53.7
307
10 41 36.94
42 34.63
9 60 26U)
54 69.1
8.96308
9.7065
8J06
3
19 51.9
308
10 43 45.93
44 43.61
9 48 12J
42 44.6
8.96150
9.7068
3.06
4
19 60.1
309
10 46 6445
46 62.02
9 36 69.8
30 29.8
8.94990
9.7070
sm
5
19 48.3
310
10 48 2M
49 0.05
9 23 45.5
18 14.8
8.94828
9.7072
306
6
19 46.5
311
10 50 10.10
51 7.61
9 1181.6
6 69.8
8.94664
9.7073
3J06
7
19 44.7
312
10 52 17.21
53 14.69
8 59 17.7
53 44.8
8.94499
9.7073
3.06
8
19 42.8
313
10 54 23.83
56 21.28
8 47 8.8
41 29.8
8.94333
9.7072
3.06
9
19 41.0
314
10 56 29.97
57 27UJ8
8 34 60.0
29 15.1
8.94166
9.7071
3.06
10
19 39.1
315
10 58 35.62
59 32.99
8 22 36.5
17 0.8
8.93998
9.7069
3.07
11
19 37.3
316
11 0 40.78
138.11
8 10 23.4
4 46.9
8.93830
9.7066
8J07
12
19 35.4
317
11 2 45.45
3 42.74
7 58 10.8
52 33.6
8.93661
9.7062
3i)7
+ 3.25
13
19 33.5
318
11 4 49.63
6 46.88
7 46 68.8
40 20.8
8.93492
9.7058
3.07
3.32
14
19 31.7
319
11 6 53.34
7 60.54
7 33 47.6
28 9J0
8.93322
9.7053
3.07
3.38
15
19 29.8
320
11 8 56.57
9 58.72
7 21 S7A
16 58.2
8.93161
9.7047
8.07
342
16
19 27.9
321
11 10 59.81
1156.40
7 9 28.8
8 48.6
8.92979
9.7040
8.07
347
17
19 26.0
322
11 13 1.66
13 68.69
6 67 20.3
51 40.0
8.92806
9.7033
8.07
3.50
18
19 24.1
323
11 16 3.32
16 0.29
6 45 13.6
39 32.9
8.92632
9.7026
3.07
3.54
19
19 22.2
324
11 17 4.60
18 1.61
6 33 8.3
27 27.3
8.92467
9.7017
3.07
3.67
20
19 20.2
325
11 19 6.40
20 2.24
6 21 4.6
15 23.2
8.92281
9.7008
3.08
3.60
21
19 18.3
326
11 21 6.70
22 2.47
6 9 2.3
3 20.8
8.92104
9.6998
3.08
3.63
22
19 16.3
327
11 23 5.49
24 2.18
6 67 1.8
51 20.1
8.91924
9.6988
3.08
3.65
23
19 14.4
328
11 26 4.78
26 1.39
5 45 3.1
39 21.3
8.91742
9.6977
3.08
3.68
24
19 12.4
329
1127 a.67
28 0.10
6 33 6.2
27 24.4
8.91668
9.6965
3.09
3.70
25
19lOJi
330
11 29 1.85
29 68.31
6 21 11.3
16 29.6
8.91372
9.6962
3.09
3.73
26
19 8.5
331
1180 69.62
31 56X)1
6 9 18.5
3 36.8
8.91184
9.6939
3.10
3.75
27
19 6.5
332
11 32 66.88
33 63.19
4 67 27.9
5146.3
8.90993
9.6926
3.10
3.77
28
19 4.5
333
11 34 63.63
36 49.85
4 45 39.6
39 58.3
8.90799
9.6910
3.11
3.79
29
19 25
334
11 36 49.87
37 46.00
4 33 53.7
28 12.7
8.90602
9.6894
3.11
3.81
30
19 0.5
335
11 38 45.69
39 41.62
4 22 10.4
16 29.8
8.90401
9.6877
3.12
3.83
Dec 1
18 58.5
336
1140 40.78
41 36.69
4 10 29.9
4 49.8
8.90197
9.6859
3.12
3.85
2
18 56.5
337
11 42 36.42
43 3121
3 68 62.2
53 12.7
8.89990
9.6840
3.13
3.87
S
18 54.4
338
1144 29.61
45 26.17
3 47 17.6
41 88.7
8.89779
9.6821
3.14
3.89
4
18 52.4
339
11 46 23X)4
47 18.67
8 36 46.3
30 8.0
8.89664
9.6801
3.14
3.91
5
18 503
340
11 48 16.00
49 11.39
3 24 18.4
18 40.9
8.89344
96780
3.16
3.92
6
18 48.3
341
11 60 8.38
61 3.63
3 12 64.1
7 174
8.89119
9.6768
3.16
3.94
7
18 46.2
342
11 52 0.18
52 55.27
2 61 33.4
56 57.6
8.68889
9.6735
3.16
3.96
8
18 44.1
343
11 53 51.38
54 46.80
2 50 16.3
44 41.6
8.88656
9.6711
3.17
3.97
9
IC 42.0
344
11 56 41.97
56 36.73
2 39 3.1
33 29.5
8.88416
9.6686
8.17
3.99
10
18 39 9
345
11 57 31.95
58 26.64
2 27 63.9
22 21.5
8.88172
9.6660
3.18
4.00
U
18 37.8
346
1169 21.31
0 16.73
2 16 48.7
11 17.6
8.87923
9.6633
3.19
4.01
12
18 35.7
347
12 1 10.03
2 4.28
2 5 47.8
0 18.0
8.87669
9.6605
3.19
4.02
13
18 33.5
348
12 2 68.11
3 62.17
1 54 61.2
49 22.8
8.87410
9.6676
3.20
4.03
14
18 31.4
349
12 4 45.53
6 39.40
1 43 59.0
38 32.1
8.87146
9.6546
3.20
4.04
15
18 29.2
350
12 6 32.28
7 25.96
133 11 J
27 46.0
8.86875
9.6615
3.21
4.05
16
18 27.1
351
12 8 18.37
9 11.85
1 22 28.3
17 4.6
8.86600
9.6483
3.22
4.06
17
18 24.9
352
12 10 3.80
10 67.07
1 11 50.0
6 28.0
8.86320
9.6450
3.22
4.07
18
18 22.7
353
12 11 48.66
12 41.60
. 0 61 16.5
56 66.3
8.86036
9.6416
3J2d
4.08
19
18 20.4
354
12 13 32.63
14 2643
0 60 48.0
45 29.7
8.86744
9.6381
dJ23
4.09
20
18 18.2
355
12 16 16.00
16 BA5
0 40 24.6
36 8.2
8.86448
9.6345
3.24
4 10
21
18 16.0
356
12 16 68.66
17 50.95
0 30 64
24 62.1
8.86146
9.6308
3.24
4.11
22
18 13.7
357
12 18 40.69
19 32.62
0 19 53.6
14 414
8.84837
9.6269
3.25
4.12
23
18 11.5
358
12 20 21.78
21 13.55
+ 09 46.2
4 36.2
8.84621
9.6229
3.26
4.13
24
18 9.2
359
12 22 2.23
22 53.73
-00 15.6
6 234
8.84198
9.6188
3.26
4.14
25
18 7.0
360
12 23 41J3
24 33.16
010 11.8
16 17.3
8.88868
9.6146
3.27
4.15
26
18 4.7
361
12 25 20.87
26 11.82
0 20 2.2
26 6.3
8.83631
9.6103
3.28
4.16
27
18 2.4
362
12 26 59.03
27 49.69
0 29 46.6
34 47.2
8.83187
9.6058
3.28
417
28
18 0.0
363
12 28 36.41
29 26.77
0 89 24.7
44 22.9
8.82836
9.6012
3.29
4.18
29
17 57.7
364
12 30 13.00
31 3J05
0 48 66.7
53 62.3
&82478
9.6966
3.29
4.19
30
17 55.3
365
12 31 48.79
32 38.61
0 68 22.4
63 16.3
8.82114
^ 9.6918
3.30
4.20
81
17 53.0
366
12 33 23.78
34 13.15
- 1 7 41.6
12 31.6
+ 8.81743
•K 9.6865
- 3.31
+ 4.21
326
JUPITER, 1855.
For WMhIogtOQ Sidereal Noon and Meridian TrmariU
Mean Solar Time of
' Meridian Tianeiu
1
Side
reaJ
Date.
Riffht Aecenikm.
Iaw. of Motion In a
Sidereal Minute.
hog. of Factor
for&cood DifTa
At Sid. Oh.
At
Trancit.
At Sid. Oh.
At
Tranait.
InlLA.
In Dee.
lnR.A.
In Dec
! ^
h. ro
h. m. e.
m. a.
O 1 If
1 H '
Jan. 1
138.4
0
20 21 6^
2154.38
-20 3 4.9
0 274
+8^^941
•1-9.1083
+2,47
+338
1354
1
20 22 2.97
22 51.15
19 59 59.2
57 20.3
8.5951
9.1120
246
338
132.4
2
20 22 59.72
23 48X)4
19 56 52.0
54 11.6
8.5960
9.1157
244
337
129.4
3
20 23 56.58
24 45.04
19 53 43.2
51 14
8.5969
9.1193
2.42
337
1 26.5
4
20 24 53.55
25 42.15
19 50 329
47 49.7
8.5978
9.1228
240
336
123.5
3
20 25 50.64
26 39.37
19 47 21.1
44 364
8.5986
9.1263
238
336
120.5
6
20 26 47.84
27 36.69
19 44 7.7
41 21.6
8.5993
9.1297
236
335
1 17.5
7
20 27 45.14
28 34.11
19 40 52.8
38 5.2
8.6000
9.1331
234
335
1 14.5
8
20 28 42.53
29 31.61
19 37 36.3
34 47.3
8.6007
9.1364
231
334
1 11.6
9
20 29 40.01
30 29.19
19 34 18.3
3128X)
8.6014
9.1397
+2.28
334
1 8.6
10
20 30 37.57
31 26.85
19 30 58.9
28 7.2
8.6020
9.1429
333
1 5.6
11
20 31 35.21
32 24.58
19 27 38.0
24 44.9
8.6025
9.1461
332
1 2.7
12
20 82 32.92
33 22.38
19 24 15.6
21 21.2
8.6030
9.1492
331
0 59.7
13
20 33 30.68
34 20.23
19 20 51.9
17 56.2
8.6034
9.1522
331
0 36.7
14
20 34 28.49
35 18.13
19 17 26.8
14 29.8
8.6038
9.1551
330
0 53.7
13
20 35 26.36
36 16.08
19 14 04
11 2.0
8.6042
9.1680
349
0 50.8
16
20 36 24.28
37 14.08
19 10 32.5
7 32.9
8.6045
9.1608
348
0 47.8
17
20 37 22.24
38 12.11
19 7 3.3
4 24
8.6047
9.1635
347
0 44.9
18
20 88 20.24
39 10.16
19 3 32.8
0 30.7
8.6049
9.1662
347
0 41.9
19
20 39 18.26
40 8.23
18 60 1.1
56 57.7
8.6051
9.1688
346
0 39.0
20
20 40 16.29
41 6.31
18 56 28.1
53 234
8.6052
9.1714
345
22
0 36.0
21
20 41 14.33
42 441
18 52 53.8
49 47.9
8.6052
9.1739
344
23
0 33.0
22
20 42 12.39
43 2.51
18 49 18.3
46 11.3
8.6053
9.1763
343
24
O9OJ0
23
20 43 1045
44 0.60
18 45 41.6
42 33.5
8.6053
9.1787
342
25
0 27.1
24
20 44 8.50
44 58.68
18 42 3.8
38 54.6
8.6052
9.1810
341
26
0 24.1
25
20 45 6.54
45 56.75
18 38 24.9
35 14.5
8.6052
9.1832
340
27
0 21.1
26
20 46 4M
46 54.79
18 34 44.8
31 33.3
8.6051
9.1854
339
28
0 18.1
27
20 47 2.56
47 52.80
18 31 3.6
27 51.1
8.6049
9.1875
338
29
0 15.2
28
20 48 0.53
48 50.78
18 27 21.5
24 7.8
8.6047
9.1895
337
30
0 12.2
29
20 48 58.47
49 48.73
18 23 38.2
20 23.5
8.6045
9.1915
333
31
0 9.2
30
20 49 56.37
50 46.64
18 19 53.9
16 38.2
8.6042
9.1934
334
Feb. 1
0 6.2
31
20 50 54.24
51 44.50
18 16 8.6
12 52.0
8.6039
9.1953
333
2
0 3.3
32
20 51 52M
52 42.31
18 12 22.3
9 4.9
8.6035
9.1971
332
3
0 0.4
33
20 52 49.83
53 4007
18 8 35.2
5 16.8
8.6031
9.1989
330
3
23 574
34
20 53 47.54
54 37.77
18 4 47.2
1 27 J
8.6027
9.2006
3.29
4
23 34.5
35
20 54 45.19
55 3541
17 60 58.3
57 38.0
8.6022
92022
4337
5
23 515
36
20 55 42.78
56 32.98
17 57 8.5
53 47.3
8.6017
9.2038
-2J7
6
23 48.5
37
20 56 40.30
57 3047
17 53 17.9
49 55.7
8.6011
9.2053
230
7
23 45.5
38
20 57 37.74 58 27.88
17 49 264
46 34
8.6005
9.2068
233
8
23 42.5
39
20 58 35.10
59 25.21
17 45 34.1
42 10.3
8.5999
9.2082
235
9
23 39.5
40
20 59 32.38
60 22.46
17 41 41.0
38 16.6
8.5993
9.2096
237
10
23 36.5
41
21 00 29.58
1 19.61
17 37 47.3
34 22.1
8.5986
9.2109
239
11
23 33.5
42
21 01 26 68
2 16.66
17 33 53X)
30 27.0
8.5979
9.2121
2.41
12
23 30.5
43
21 02 23.68
3 13.60
17 29 58.0
26 31.2
8.5971
9.2133
244
13
23 27.5
44
21 03 20.57
4 1043
17 26 2.2
22 34 J
8.5963
9.2144
246
14 23 24.6
45
21 04 17.35
5 7.15
17 22 5.9
18 37.9
8.5954
9J154
2.48
13
23 21.6
46
21 05 14X)2
6 3.75
17 18 9.1
14 40.5
8.5945
9.2164
230
16
23 18.6
47
21 06 10.57
7 0J2
17 14 11.8
10 42.5
8.5935
9.2173
232
17
23 15.6
48
2107 6.98
7 56.55
17 10 14.0
6 44.0
8.5925
9JI82
234
18
23 12.6
49
2108 3J6
8 52.75
17 6 15.6
2 45.1
8.5914
9J190
235
19
23 9.6
30
21 08 59.40
09 48.80
16 62 16.8
58 45.8
8.5903
9.2197
237
20
23 6.6
31
21 09 5541
10 44.70
16 58 17.6
54 46 J
8.5891
9.2204
238
21
23 3.6
52
21 10 51.26
114044
16 54 18.1
50 463
8.5879
9.2210
239
22
23 0.6
33
21 1146.95
12 36X)2
16 50 184
46 46.1
8.5867
9.2216
239
23 22 37.6
54
21 12 4247
13 3143
16 46 18.3
42 45.6
8.5854
9.2221
2.60
24
22 34.6
35
2113 37.83
14 26.68
16 42 18.0 38 45X>
8.5841
9.2225
2.61
23 22 31.6
56
21 14 33i>2
15 21.75
16 38 174 34 44 J
8.5827
9.2229
2.64
26
22 48.6
57
21 15 28j03|1616.64
16 34 16.7 30 433
8.5813
9.2232
2.63
27
22 45.6
58
21 16 22.86,17 11.35
16 30 15.9 26 42J
8.5799
9.2235
2.66
28
22 42.6
59
21 17 17.5ri8 5 87
16 2615.0 22 41.1
8.5784
9.2237
2,67
Mar. I
22 89.5
60
21 18n.98|l9 0.20
-16 22 14 0:18 39.9
•f8.5769
•«-9.2238
^68
^
JUPITER, 1855.
327
For Washington Sidereal Noon and Meridian TiraneiL
Mean Solar TlRM of
Meridiaa Transit.
Side
real
Dau».
Apparent
Right Aaceosion.
Apparent Declination.
Log. of Motion in a
Sidereal Minute.
Log. of Factor
for&condDilTe.
At Sid. Oh.
At
Tran.lt.
AlSAOh. |p^,'.,^
InRA.
In Dec
I0R.A.
In Dec.
d.
h. m.
h. in. ».
m. 8.
O 1 N
1 II
■
! Mar. 2
22 86J(
61
21 19 6.26
19 54.34
-16 18 12.9
14 38.7
+8.5754
+9.2238
-2.69
i 3
22 33.5
62
21 20 0.34
20 48.28
16 14 11.8
10 37.5
85738
9.2238
2.70
1 4
22 30.4
63
21 20 54.22
21 42.01
16 10 10.8
6 36.3
8.5722
9.2237
2.71
5
22 27.4
64
21 21 47.89
22 35.53
16 6 9.8
2 35.2
8.5705
9.2236
2.72
6
22 24.3
65
21 22 414S6
23 28.84
15 62 8.9
58 34.2
8.5688
9.2234
2.72
7
22 21.3
66
21 23 34.62
24 21.93
15 58 8.1
54 33.4
8.5670
9.2231
2.73
8
22 18.2
67
21 24 27.66
25 14.80
15 54 7.5
50 32.9
8.5652
9.2227
2.74
9
22 15.2
68
21 25 20.47
26 7.45
15 50 7.1
46 32.7
8.5633
9.2223
2.75
10
22 12.1
69
21 26 13.06
26 59.86
15 46 7.1
42 32.7
8.5614
9.2218
2.76
11
22 9.1
70
21 27 5.41
27 52.03
15 42 7.3
38 33X)
8.5595
9.2213
2.77
12
22 6.0
71
21 27 57.52
28 43.96
15 38 7.7
34 33.6
8.5575
9.2207
2.78
IS
22 2.9
72
21 28 49J39
29 35.65
15 34 8.5
30 34.6
8.5564
9.2200
2.79
14
21 59.8
73
21 29 41.02
30 27.08
15 30 9.7
26 36.1
8.5533
9.2192
2.80
15
21 56.7
74
21 30 32.40
31 18.25
15 26 11.4
22 38.1
8.5511
9.2183
2.81
16 21 53.6
75
21 31 23.52
32 9.15
15 22 13.6
18 40.6
8.5489
9.2174
2.82
17
21 50.5
76
21 32 14.36
32 59.78
15 18 16.3
14 43.6
8.5466
9.2164
2.83
18
21 47.4
77
21 33 4.93
33 50.14
15 14 19.5
10 47.2
8.5443
9.2153
2.84
19
2144.3
78
21 33 55.23
34 40.22
15 10 23.3
6 51.5
8.5419
9.2141
2.85
20
2141.2
79
21 34 45.26
35 30.01
15 6 27.8
2 56.5
8.5394
9.2129
2.86
-3.28
21
21 38.1
80
21 35 34.99
36 19.50
14 62 33.0
59 2.2
8.5369
9.2116
2.86
8.30
22
21 85.0
81
21 36 24.42
37 8.69
14 58 38.9
55 8.7
8.5343
9.2102
2.87
3.32
23
21 31.9
82
21 37 13.55
37 57.57
14 54 45.7
51 16.1
8.5317
9.2087
2.88
8.34
24
21 28.8
83
21 38 2.37
38 46.15
14 50 53.3
47 24.4
8.5290
9.2071
2.88
3.36
25
21 25 7
84
21 38 50.89
39 34.42
14 47 1.8
43 33.6
8.5262
9.2054
2.89
3.38
26
21 22.5
85
21 39 39.11
40 22.38
14 43 11.2
39 43.7
8.5234
9.2036
2.89
3.39
27
21 19.4
86
21 40 27.01
41 10.02
14 39 21.5
35 54.8
8.5205
9.2017
2.90
3.41
28
21 16.3
87
21 41 14.59
41 57.33
14 35 32.8
32 7.0
8.5176
9.1997
2.91
3.43
29
21 13.1
88
21 42 1.84
42 44.30
14 31 45.3
28 20.3
8.5146
9.1977
2.91
344
30
21 9.9
89
21 42 48.76
43 30.94
14 27 58.9
24 34.7
8.5115
9.1956
2.92
346
31
21 6.8
90
21 43 35.34
44 17.24
14 24 13.6
20 50.3
8.5084
9.1934
2.92
347
Apr. 1
2X 3.6
91
21 44 21.58
45 3.20
14 20 29.4
17 7.0
8.5052
9.1911
2.93
348
2
21 0.4
92
21 45 7.48
45 48.82
14 16 46.3
13 24.9
8.5019
9.1887
2.94
3.50
3 20 57.2
93
21 45 53.04
46 34.09
14 13 4.5
9 44.1
8.4985
9.1862
2.94
3.51
4
20 54.1
94
21 46 38.26
47 19.00
14 9 23.9
6 4.7
8.4951
9.1837
2.95
3.53
5
20 50.9
95
21 47 23.12
48 3.54
14 5 44.7
2 26.6
8.4916
9.1811
2.95
3.54
6 20 47.7
96
21 48 7.61
48 47.72
13 62 6.8
58 49.9
8.4880
91784
2.96
3.55
7
20 44.5
97
2148 51.72
49 31.53
13 58 30.4
55 14.6
8.4843
9.1756
2.97
3.56
8
2041.3
98
21 49 3546
50 14.96
13 54 55.4
51 40.8
8.4805
9.1726
2.97
3.57
9
20 38.0
99
21 50 18.85
50 58.01
13 5121.8
48 8.6
8.4767
9.1695
2.98
3.59
10
20 34.8
100
21 51 1.85
5140 66
13 47 49.8
44 38.0
8.4728
9.1663
2.98
3.60
11
20 31.5
101
21 51 44 44
52 22.91
13 44 19.4
41 9.1
8.4688
9.1630
2.99
3.61
12
20 28.3
102
21 52 26.63
53 4.76
13 40 50.7
37 41.8
8.4647
9.1595
8.00
3.62
13
20 25.0
103
21 53 8.42
53 46.20
13 37 23.6
34 16.3
8.4605
9.1.^59
3.00
3.63
14
20 21.8
104
21 53 49.81
54 27.23
13 38 58.3
30 52 5
8.4562
9.1522
3.01
3.65
15
20 18.5
105
21 54 30.79
55 7.84
13 3034.8
27 30.5
8.4518
9.1483
3.01
3.66
16
20 15.3
106
21 55 IIM
55 4sm
13 27 13.1
24 10.4
8.4473
9.1443
3.02
3 67
17
20 12.0
107
21 55 5M6
56 27.76
13 23 53.2
20 52.3
8.4427
9.1401
3.03
3.68
18
20 8.7
108
21 56 31.15
57 7.07
13 20 35.3
17 36.0
84380
9.1358
3.03
3.69
19
20 5.4
109
21 57 10.40
57 45.93
13 17 19.5
14 22.0
8.4331
9.1313
3.04
3.70
20
20 2.1
110
21 57 49.21
58 24.34
13 14 5.7
11 100
8.4281
9.1267
3.04
3.71
21
19 58.8
111
21 58 27.57
59 2.30
13 10 54.1
8 00.2
8.4230
9.1219
3.05
3.72
22
19 55.5
112
21 59 5.47
59 39.80
13 7 44.5
4 52.5
8.4178
9.1170
3.05
3.73
23
19 522
113
21 59 42.91
60 16.84
13 4 37.2
147.0
8.4124
9.1119
3.06
3.74
24
19 48.9
114
22 0 19.89
0 53.41
12 6131.9
58 43.8
8.4069
9.1066
3.06
374
25
19 45.6
115
22 0 56.41
129J>1
12 68 28.8
55 42.9
84013
9.1012
3.07
3.75
26
19 42.3
116
22 132.46
2 5.13
12 55 28.2
52 44.3
8.3955
9.0956
3.07
3.76
27
19 38.9
117
22 2 8.03
2 40.26
12 52 30.0
49 48.1
8.3896
9.0899
3 07
3.77
28
19 35.6
118
22 2 43.10
3 14.90
12 49 34.2
46 54.3
83836
9.0840
3.08
3.78
29
19 32.2
119
22 3 17.68
3 49.05
12 46 40.6
44 2.9
8.3774
9.0779
3.08
3.78
SO
19 28.8
120
22 3 51.78
4 22.71
12 43 49.4
41 14.0
8.3711
9.0716
3.09
3.79
May 1
19 25.4
121
22 4 25.39
4 55.86
-12 41 0.7
38 27.7
4 8-3646
+9.0651
-3.09
-3.80
328
JUPITER, 1855.
For WMhin^on Sidereal Noon and Meridian Transit.
Mean Solar Tl me of
Meridian Transit.
Side
real
Date.
Apparent
Ri?ht Ascennlon.
Apparent Declination.
Log. of Motion in a
Sidereal Mijiute.
Lof. ol Factor
forSM^oudDidV ,
At Sid. Oh.
At
Traiiait
At Sid. Oh.
At
Tranait.
InR.A.
In Dec
InRA.
In Dec
d.
h. m.
h. m. u.
m. a.
O 1 M
1 u
Mar 2
19 22.0 122
22 4 58.49
5 2849
-12 38 14.5
35 44X)
+8.3579
+9.0584
-3,09
-3.81
S
19 18.6 123
22 5 31.07
6 0.61
12 35 31.0
33 2.9
8.3511
9.0515
3.10
3.82
4
19 15.2 124
22 6 3.13
6 32.22
12 32 50^2
30 244
8.3441
9.0443
3.10
3.82
5
19 11.8 125
22 6 34.69
7 3.30
12 30 12.0
27 48.7
8.3369
9/)369
3.11
3.83
6
19 8.4 126
22 7 5.73
7 33.85
12 27 36.6
25 15.8
8.3295
9.0293
3.11
3.84 1
7
19 5.0127
22 7 36.23
8 3.86
12 25 4.0
22 45.7
8U)218
9.0214
3.12
3.85
8
19 1.6 128
22 8 6.17
8 33.33
12 22 34.2
20 184
8.3139
9X)132
3.12
3.85
9
18 58.1 129
22 8 35.58
9 2.24
12 20 7.1
17 54i)
8.3058
9.0046
3.13
3.86
10
18 54.7 130
22 9 4.44
9 30.59
12 17 43X)
15 32.6
8.2975
8.9957
3.13
3.86
11
18 51.2J131
22 9 32.74
9 58.37
12 15 21.9
13 14.3
8.2889
8.9864
3.14
3.87 1
12
18 47.7,132
22 10 0.47
10 25.58
12 13 3.9
10 59.1
8.2800
8.9768
3.14
3.88 I
13
18 44.2 133
22 10 27.63
10 52.21
12 10 49.0
8 47.0
8iJ708
8.9668
3.15
3.88 1
14
18 40.7
134
22 10 64.20
11 18.26
12 8 37.2
6 38.1
8.2613
8.9565
3.15
3.89
15
18 37.2
135
22 1120.19
11 43.72
12 6 28.5
4 324
8.2515
8.9458
3.16
3.89
16
18 33.7 136
22 1145.60
12 8.58
12 4 23.0
2 29.8
8.2413
8.9347
3.1B
3.90 '
17
18 30.2 137
22 12 10.41
12 32.85
12 2 20.8
0 30.5
8.2308
8.9230
3.16
3.91 1
18
18 26.7
138
22 12 34.62
12 56.51
1160 21.8
58 34.6
8.2200
8.9108
3.17
3.91 1
19
18 23.2
139
22 12 58.23
13 19.56
1158 26.2
56 42.1
8.2088
8.8981
3,17
3.92 1
20
18 19.6
140
22 13 21.23
13 41.99
1156 34.0
54 53.0
8.1974
8.8849
3.18
3.92 !
21
18 16.0
141
22 13 43.61
14 3.79
11 54 45.2
53 74
8.1856
8.8712
3.18
3.93
22
18 12.4
142
22 14 5.36
14 24.97
U 52 59.8
51 25.2
8.1732
8.8569
3.18
8.93
23
18 8.8 143
22 14 26.49
14 45.52
1151 17.9
49 46.5
8.1603
8.8420
3.18
3.94
24
18 5.2
144
22 14 46.99
15 5.44
1149 39.5
48 114
8.1469
8,8264
3.19
3.94 1
25
18 1.6
145
22 15 6.86
15 24.72
U 48 4.6
46 39.9
8.1330
8.8101
3.19
3.95 '
26
17 58.0
146
22 15 26X)9
15 43.35
1146 33.4
45 12.1
8.1185
8.7929
3.19
3.95
27
17 54 4
147
22 15 44.67
16 1.34
1145 5.9
43 47.9
81034
8.7749
3.20
3.95
28
17 50.7
148
22 16 2.61
16 18.68
1143 42.0
42 274
8.0877
8.7559
3.20
3 96 1
29
17 47.0
149
22 16 19.90
16 35 37
1142 21.7
41 10.5
8.0713
8.7359
3.20
3.96
30
17 43.4
150
22 16 36.54
16 51.40
1141 5.1
39 57.3
8i)54l
8.7149
3.21
3.97
31
17 39.7
151
22 16 52.52
17 6.75
1139 52.2
38 47.9
8.0360
8.6927
3.21
3.97
June I
17 36.0
152
22 17 7.82
17 21.43
1138 43.1
37 42.3
8.0170
8.6690
3.21
3.97
2
17 32.3
153
22 17 22.45
17 35.44
1137 37.8
36 40.6
7.9969
8.6435
3.22
3.97
3
17 28.6
154
22 17 36.41
17 48.77
11 36 36.3
35 42.7
7.9757
8.6161
3^2
8.98
4
17 24.8
155
22 17 49.69
18 1.42
1135 38.8
34 48.8
7.9532
8.5867
3.23
3.98
5
17 21.1
156
22 18 2.29
18 13.38
1134 45.2
33 58.8
7.9294
85549
3.23
3.98
6
17 173
157
22 18 14.20
18 24.65
1133 55.5
33 12.8
7.9042
8.5202
3.23
3.98
7
17 13.6
158
22 18 25.41
18 35.21
1133 9.8
32 30.7
7.8770
8.4821
3.23
3.98
8
17 9^
159
22 18 35.92
18 45.07
1132 38X)
31 52.6
7.8481
84404
3.24
3.99
9
17 6.0
160
22 18 45.73
18 54.22
1131 50.1
31 18.6
7.8166
8.3943
3.24
3.99
10
17 2.2
161
22 18 54.83
19 2.66
1131 16.4
30 48.7
7.7826
8.3424
3.24
3.99 1
11
16 58.4
162
22 19 3 22
19 1038
1130 46.8
30 22.8
7.7458
8.2825
3.24
3.99 ll
12
16 54.6
163
22 19 10.89
I9 17J)8
1130 21.2
30 1.1
7.7049
8.2127
3.25
3.99
13
16 50.8
164
22 19 17.84
19 23.66
1129 59.7
29 43.5
7.6598
8.1294
3.25
4.00
14
16 47X)
165
22 19 24X)7
19 29.21
1129 42.4
29 30.1
7.6095
8.02.34
S.25
4J00'
15
16 43.2
166
22 19 29.57
19 34.03
1129 29.3
29 20.8
75527
7.8869
3.25
4.001
16
16 39.3
167
22 19 34.34
19 38.12
1129 20.3
29 15.6
74857
7.6804
3.25
4X»'
17
16 35.4
168
22 19 38.38
19 41.48
If 29 15.4
29 14.7
74074
-4^.2888
3.25
4.00
18
16 31.5
169
22 19 41.69 19 44.12
11 29 14.8
29 18.0
73114
- 6.9877
3.25
4X»i
19
16 27.6
170
22 19 44.27119 46.02
1129 18.4
29 25.5
7.1880
7.5898
3.25
4.00
20
16 23.7
171
22 19 46.12 19 47.19
11 29 26.2 29 37.0
7X)148
7.8328
8.25
4J00
21
16 19.8
172
22 19 47.24 19 47.63
1129 38.0
29 52.7
6.7224
7.9867
3.25
4J0O
22
16 15.8
173
22 19 47.63 19 47.35
1129 54X)
30 12.6
4 5.3187
8.0993
3.25
4.00 >
23
16 11.9
174
22 19 47.30 19 46.33
1130 14.2 30 36.7
^6.6929
8.1899
3.25
3.99
24
16 7.9
175
22 19 46.22 19 44.58
1 130 38.5131 4.9
7.0000
8.2642
3.25
3.99,
25
16 3.9
176
22 19 4442 19 42.10
1131 7.0 j3l 37.2
7.1790
8.3271
3.25
3.99 1
26
15 59.9
177
22 19 41.90' 19 38.89
113139.6 32 13.6
7.3040
8JI819
3.25
3.99*
27
15 55.9
178
22 19 38.64 19 34.96
1132 16.3 32 54.1
7.4015
a4304
3.25
3.99
28
15 51.9
179
22 19 34.66 19 30.30
1132 57.1 33 38.7
74801
84741
3.24
3.98
29
15 47.9
180
22 19 29.95 19 24.92
1133 42.0 34 27.3
7.5475
8.51.34
3.24
3.98'
30
15 43.8
181
22 19 24.52,19 18.83
ll34 30.9j35 2UU)
^7.6058
A7.6565
_ 8.5492
3.24
3 98
July I
15 39.8
182
22 19 18.38 19 12.01
-11 35 23.8 36 If 7
^8.5820^
-334
-«.«|
JUPITER, 1855.
For Wuhingtofi Sidereal Noon and Meridian Transit.
329
1 Mean Solar Time of
Meridian Transiu
Skl»
real
Apparent
Right Ascension.
Log. of Motion in a
^dereal Minute.
hog. of Factor
forSwondDUTs.
Date.
At Sid. Oh.
At
Transit.
At Sid. Oh.
At
Transit.
InELA.
In Dec
In R.A.
In Dec.
d.
h. ro.
h. m. s.
m. s.
O 1 II
1 II
^^
Jnlj 2
15 35.8
183
22 19 11.51
19 4.48
-1136 20.8
37 17.4
*7.7019
7^8.6125
-3.24
-3.98
3
15 31.7
184
22 18 63.92
18 56.22
1137 21.8
38 22.1
7.7429
8.6410
3.23
3.97
4
15 27.6
185
22 18 55.61
18 47.25
1138 26.8
39 30.7
7.7801
8.6677
3.23
3.97
5
15 23.5
185
22 18 46.59
18 37.56
1139 35.7
40 43.2
7.8143
8.6927
3.23
3.97
6
15 19.4
186
22 18 36.85
18 27.17
1140 48.5
41 59.7
7.8459
8.7161
3.23
3.97
7
15 15.3
187
22 18 26.41
18 16.07
11 42 5.3
43 20.1
7.8752
8.7380
3.22
3.96
8
15 11.2
188
22 18 15.26
18 4.26
1143 25.9
44 44JJ
7.9024
8.7586
3.22
8.96
9
15 7.1
189
22 17 63.40
17 51.75
1144 50.4
46 12.2
7.9280
8.7781
3.21
3.95
10
15 3.0
190
22 17 50.84
17 38.56
11 46 18.6
47 43.9
7.9519
8.7965
3.21
3.95
11
14 58.8
191
22 17 37.60
17 24.70
11 47 50.6
49 19.2
7.9741
8.8137
3.20
3.94
12
14 54.6
192
22 17 23.69
17 10.17
11 49 26.1
50 58.2
7.9951
8.8302
3.20
3.93
13
14 50.3
193
22 16 69.10
16 54.96
11 51 5.4
52 40.8
8.0151
8.8459
3.19
3.93
14
14 46.1
194
22 16 53.84
16 39.08
1152 48.2
54 26.9
8.0339
8.8609
3.19
3.92
15
14 41.9
195
22 16 37.91
16 22.55
11 54 34.5
56 16.4
8.0516
8.8751
3.18
3.91
16
14 37.7
196
22 16 21.33
16 5.39
11 56 24.3
58 9.3
8.0684
8.8886
3.17
3.90
17
14 33.5
197
22 15 64.12
15 47.60
11 58 17.4
60 5.5
8.0844
8.9014
3.16
3.89
• 18
14 29.3
198
22 15 46.29
15 29.20
12 0 13.9
2 4.9
8.0995
8.9135
3.16
3.88
19
14 25.1
199
22 15 27.84
15 10.19
12 2 13.6
4 7.4
8.1141
8.9250
3.15
3.86
20
14 20.8
200
22 14 68.78
14 50.58
12 4 16.3
6 13.0
8.1280
8.9359
3.14
3.85
21
14 16.6
201
22 14 49.12
14 30.40
12 6 22.2
8 21JJ
8.1408
8.9463
3.13
3.84
22
14 12.3
202
22 14 28.89
14 9.65
12 8 30.9
10 32.9
8.1526
8.9.161
3.12
3.82
23
14 8.0
203
22 13 68.10
13 48.35
12 10 42.6
12 47.0
8.1645
8.9654
3.11
3.81
24
14 3.7
204
22 13 46.75
13 26.50
12 12 57.0
15 3.8
8.1765
8.9742
8.10
3.79
25
13 59.4
205
22 13 24.86
13 4.12
12 15 14.0
17 23.2
8.1882
8.9826
sm
3.77
26
13 55.1
206
22 12 62.44
12 41.22
12 17 33.6
19 45.2
8.1989
8.9905
3.08
3.75
27
13 50.8
207
22 12 39.50
12 17.82
12 19.55.8
22 9.6
8.2086
8.9980
8.06
3.73
28
13 46.4
208
22 11 76.05
1153.92
12 22 20.4
24 36.3
8.2173
9.0051
3.05
3.71
29
13 42.1
209
22 1152.11
11 29.55
12 24 47.4
27 5.2
8.2250
9.0118
8.03
3.69
30
13 37.8
210
22 11 27.70
11 4.73
12 27 16.5
29 36.2
8.2330
9.0182
3.02
3.67
31
13 33.4
211
22 10 62.84
10 39.46
12 29 47.7
32 9.2
8.2407
9.0241
3.00
3.65
Aug. 1
13 29.0
212
22 10 37.53
10 13.76
12 32 20.9
34 44.1
8.2482
9.0296
2.98
3.63
2
13 24.7
213
22 9 71.79
9 47.65
12 34 56.0
37 20.8
8.2555
9.0348
2.96
3.60
3
13 20.3
214
22 9 45.63
9 21.14
12 37 32.9
39 59.2
8.2626
9.0397
2.94
3.57
4
13 15.9
215
22 8 79.08
8 54.25
12 40 11.5
42 39.3
8.2690
9.0442
2.92
3.54
5
13 11.5
216
22 8 52.15
8 26.99
12 42 51.7
45 20.9
8.2750
9X)484
2.90
3.50
6
13 7.1
217
22 7 84.86
7 59.39
12 45 33.4
48 3.8
8.2789
9.0522
2.87
3.46
7
13 2.7
218
22 7 57.23
7 31.47
12 48 16.5
50 48.0
8.2826
9.0557
2.85
3.41
8
12 58.3
219
22 7 29.28
7 3.25
12 51 0.9
53 33.3
8.2858
9.0588
2.82
3.35
9
12 53.9
220
22 6 61.02
6 34.74
12 53 46.3
56 19.6
8.2906
9.0616
2.79
-3.29
10
12 49.5
221
22 6 32.48
6 5.96
12 56 32.7
59 6.9
8.2949
9.0640
2.75
11
12 45.1
222
22 5 63.67
5 36.94
12 59 20.1
61 55.0
8UK)27
9.0661
2.70
12
12 40.7
223
22 5 34.62
5 7.70
13 2 8.4
4 43.7
8.3062
9.0679
2.65
13
12 36.2
224
22 4 65.36
4 38.27
13 4 57.2
7 32.8
8.3094
9.0693
2.59
14
12 31.8
225
22 4 35.90
4 8.66
13 7 46.4
10 22.3
8.3123
9.0704
2.53
15
12 27.4
226
22 3 66.27
3 38.89
13 10 36.0
13 12.1
8.3147
9.0711
2.48
16
12 22.9
227
22 3 36.49
3 8.99
13 13 25.8
16 2.1
8.3167
9.0715
2.42
17
12 18.4
228
22 2 66.57
2 38.99
13 16 15.8
18 52.1
8.3183
9.0716
2.35
18
12 13.9
229
22 2 36.56
2 8.91
13 19 5.8
21 41.8
8.3195
9.0713
-^.28
19
12 9.5
230
22 1 66.45
1 38.76
13 21 55.5
24 31.1
8.3205
9.0707
20
12 5.1
231
22 1 36.29
1 8.57
13 24 44.9
27 20.0
8.3212
9.0698
21
12 0.7
232
22 0 66 08
0 38.36
13 27 33.9
30 8.5
8.3216
9.0686
+3.25
22
1156.2
233
22 0 35.86
0 8.16
13 30 22.4
32 56.3
8.3217
9.0670
3.31
23
1151.8
234
21 59 65.65
59 37.99
13 33 10.1
35 43.3
8.3216
9.0651
3.36
24
1147.4
235
21 59 35.46
59 7.86
13 35 57.0
38 29.4
8.3210
9.0629
+2.29
3.41
25
11 43.0
236
21 58 65.33
58 37.80
13 38 43.1
41 14.5
8.3201
9.0604
2.39
3.45
26
1138.5
237
21 58 35.27
58 7.84
13 41 28.2
43 58.4
8.3189
9.0576
2.47
3.49
27
1134.1
238
21 57 65UJO
57 37.99
13 44 12.1
46 41.1
8.3174
9.0545
2.55
3.53
28
11 29.7
239
21 67 35.46
57 8.28
18 46 54.8
49 22.4
8.3157
9.0511
2.61
3.56
29
1125.3
240
21 56 65.75
56 38.72
13 49 .36.1
52 2J3
8.3135
9.0474
2.67
3.59
30
1120.9
241
21 56 36.19
56 9.33
13 52 15.9,54 40.7
8.3110
9.0433
2.72
362
31
11 16.5
242
21 55 66.80
55 40.14
-13 54 54.2j57 17.4
*V8.3082
>9.0389
+2.76
+3.65
43
330
JUPITER, 1855.
For Waahington Sidereal Noon and Meridian Trwieit.
MeanSoUi
Meridian
r Time of
Side
Apparenl
RIf hi A^cenaion.
Apparenl Declination.
Log. of MoUon in a
Sidereal Minute.
Log. of Factor
IbrSlecoDd DilTa
T~»ii- uZ.
AlSid.Oh.
At
Transiu
At Sid. Oh.
At
Trauait.
InRA.
In Dec
InRA.
In Dec
d.
h. m
h. m. 8.
m. 0.
0 1 u
i H
^
•s
Sepc 1
11 12.1 244
21 55 37.61
55 11.17
-13 57 30.8
59 52.4
\8.3050
11^9.0342
+2.79
+3.68
2
11 7.7 245
21 54 68.65 54 42.44
14 0 5.7
2 25.5
8.3016
9X)291
2J2
3.70
3
11 3.3 246
21 54 39.93 54 13.97
14 2 38.9
4 56.6
8.2975
9X)236
2.86
3.72
4
10 58.9 247
2153 71.47 53 45 78
14 5 10.2
7 25.6
8.2932
9X)177
2.88
3.74
5
10 54.5 248
2158 43.30 53 17.89
14 7 39.2
9 52.5
8.2886
9X)114
2.91
3.76
6
10 50.1 249
21 52 75.44 52 50.33
14 10 6.0
12 17.1
8.2837
9.0048
2.93
3.771
7
10 45.7 250
21 52 47.91 152 23.12
14 12 29.7
14 394
8.2785
8.9978
2.96
3.79
8
10 41.3 251
21 51 80.73
51 56.28
14 14 51.8
16 59.2
8.2727
8.9904
2.97
3.80
9
10 36.9 252
21 51 53.92
51 29.82
14 17 11.5
19 16.5
8.2665
8.9825
2.99
3J1
10
10 32.6,253
21 51 27.49
51 8.76
14 19 28.6
21 31.1
8.2599
8.9741
3J0\
3.83
11
10 28.2 '254
2150 61.46
50 38.12
14 21 43.0
23 43.0
8.2629
8.9652
3X>3
3.84
12
10 23.8 255
21 50 35.85
50 12.94
14 23 54.6
25 52X)
8.2466
8 9659
3.06
3.85
13
10 19.5 256
21 49 70.69
49 48.23
14 26 3.4
27 58X)
8.2376
8.9461
3.07
3.86
U
10 15.2 257
21 49 46.03
49 24.01
14 28 9.3
30 1.1
8.2291
8.9357
SJOS
3.87
15
10 10.8 258
2149 21.84
49 0.30
14 30 12.1
32 1.2
8.2202
8.9248
3.10
3.88
16
10 6.5 259
21 48 58.17
48 37.10
14 32 11.9
33 58.1
8.2109
8.9135
3.11
3.89
17
10 2.21260
21 48 35.01
48 1443
14 34 8.6
35 51.6
8.2012
8.9019
3.12
3.90
18
9 57.9 261
21 47 72.39
47 52JJ2
14 36 1.8
37 41.8
8.1904
8.8897
3.13
3.91
19
9 53.61262
21 47 50.33
47 30.78
14 37 51.6
39 28.7
8.1792
8.8767
3.14
3.92
20
9 49.3 263
21 47 28.83
47 9.81
14 39 38.2
41 12.3
8.1676
8.8630
3.15
3.92
21
9 45.0*264
21 46 67.91
46 4943
14 41 21.5
42 524
8.1656
8.8485
3.16
3.93
22
9 40.81265
21 46 47.58
46 29.67
14 43 1.4
44 29.0
8.1434
8.8333
3.17
3.93
23
9 36.5 '266
21 46 27.87
46 10.53
14 44 37.7
46 2X>
8.1301
8.8173
8.18
3.94
24
9 32.3 267
21 45 68.78
45 52 01
14 46 10.4
47 31.5
8.1160
8.8006
3.19
3.94
25
9 28.1
268
21 45 50.31
45 34.13
14 47 39.6
48 574
8.1012
8.7831
3.20
3.95
26
9 24.0
269
21 45 32.49
45 16.90
14 49 5.2
50 19.7
8.0856
8.7647
3.21
3.95
27
9 19.8
270
21 45 15.32
45 0.33
14 50 27.2
5138.2
8.0690
8.7452
3J1
3.96
28
9 15.6
271
2144 58 81
44 44.44
14 51 45.5
52 53.0
8 0514
8.7246
3.22
3.96
29
9 11.4
272
21 44 42.98
44 29.23
14 53 0.0
54 4.1
8.0327
8.7025
3.23
3.96
30
9 7.2
273
21 44 27.83
44 14.71
14 54 10.7
55 11.3
8.0130
8.6792
9.23
3.97
Ocu 1
9 3.0
274
21 44 13.37
44 0.89
14 55 17.5
56 14.7
7.9923
8.6544
3.24
3.97
2
8 58.8
275
21 43 59.62
43 47.78
14 56 20.5
57 14.2
7.9703
8.6277
3.24
3.98,
3
8 54 7
276
21 43 46.58
43 35.39
14 57 19.7
58 9.9
7.9468
8.5990
3.25
8.98)
4
8 50.6
277
21 43 34.26
43 23.74
14 58 15.0
59 1.7
7.9214
8.5683
3.26
3.98
5
8 46.5
278
21 43 22.67
43 12.83
14 59 6.4
59 49.6
7.8939
8.6363
3.26
3.98
6
8 42.4
279
21 43 11.83
43 2.66
14 59 54.0
60 33.6
7.8640
84993
3.26
3.99
7
8 38J)
280
2142 61.73
42 53.23
15 037.6
1 13.6
7.8315
8.4696
3.27
3.99
8
8 34.2
281
21 42 52.37
42 44.55
15 1 17.0
149.6
7.7962
84166
8.27
3.99
9
8 30.1
282
21 42 43.76
42 36.64
15 1 52.6
2 214
7.7575
8.3666
3.27
8.99
10
8 26.0
283
21 42 35.93
42 29.50
15 2 24.2
2 49.3
7.7147
8.3114
3.27
3.99
11
8 22.0
284
21 42 28.86
42 23.13
15 2 51.7
3 13.1
7.6670
8.2476
3.28
3.99
12
8 ISJO 285
21 42 22.57
42 17.54
15 3 15.2
3 32.9
7.6132
8.1720
3.28
3.99
13
8 14.0 286
21 42 17.05
42 12.72
15 3 34.6
3 48.6
7.5517
8.0796
3.28
3.99
14
8 10.0
287
21 42 12J31
42 869
15 3 49.9
4 0.2
74801
7.9655
3.28
3.99,
15
8 6.0
288
2142 8.36 42 5.46
15 4 1.0
4 7.8
7.3930
7.8054
8.28
3.99 1
16
8 2.1
289
21 42 5.20 1 42 3.01
15 4 8.4
4 11.3
7.2841
7.5576
3.28
3.99
17
7 58.1
290
2142 283I42 1.35
15 4 11.5
4 10.7
7.1383
•6.8830
3.28
3.99 1
18
7 54,2
291
21 42 1.24 '42 0.48
15 4 10.5
4 6.1
6.9171
-f 7.3040
3.28
3.99
19
7 60.3 292
21 42 0.44142 0.39
15 4 5.5
3 574
- 64437
7.6867
8.28
3.99
20
7 46.4 293
21 42 0.43*42 1.08
15 3 56.4
3 44.7
-*■ 6.4327
7.8830
3.28
3.99
21
7 42Ji
294
21 42 1.20,42 2.56
15 3 43J5
3 27.9
6.9098
8.0206
3.27
3.98,
22
7 38.6
295
2142 2.75!42 4.83
15 3 26.1
3 7.1
7.1316
8.1236
3.27
3.98
23
7 34.7
296
2142 5.09142 7.88
15 3 4.9
2 42.3
7.2794
8.2052
3.27
3.98,
24
7 30.8
297
2142 8.22
42 11.72
15 2 39.7
2 13.6
7.3881
8.2746
3.27
3.981
25
7 27.0
298
21 42 12.13
42 16.33
15 2 10.7
140.9
74751
8.3344
3.27
3.98.
26
7231
299
21 42 16.81
42 21.71
15 1 37.6
1 4.3
7.5466
8.3867
3.26
3.97'
27
7 19.3 300
21 42 22.27
42 27.87
15 1 0.7
0 23.8
7.6080
8.4327
3.26
3.97;
28
7 15.5 301
21 42 28.50
42 34.80
14 60 19.8
59 39.3
7.6622
8.4746
3.26
3.97
29
7 11.7
302
21 42 35.50
42 42.50
14 59 34.9
58 50.8
7.7102
8.5128
SJ6
3J7;
30
7 7.9
303
21 42 43.28
42 50.97
14 58 46U)
57 584
7.7531
8.6480
3.26
3.97
31
7 4.1
304
2142 5182
43 0.20
-U 57 63.3
57 2.1
+7.7920
+8.6806
+3J6
+3.96
JUPITER, 1855.
For Waahington Skferea] Noon and Meridian Tranait.
331
Mean Solar TIdm of
Meridian Tranait.
Side-
real
Right Ascetuion.
Apparent Declination.
Log. of Motion in a
Sidereal Minute.
Log. of Factor
for&condDitr*.
Date.
At Sid. Oh.
[AiTran.
AiSid.-Uh.
AtTran.
1 II
In RA.
In Dec.
InlLA.
In Dec
d.
h. ro.
h. in. B.
ra. 8.
O 1 II
Not. 1
7 0.4
305
21 43 1.12
43 10.19
-14 56 56.6
56 1.9
+7.8275
+8.6105
+3.25
+3.96
2
6 56.6
306
21 43 11.18
43 20.93
14 55 56.0
54 57.9
7.8603
8.6375
8.24
3.96
3
6 52.9
307
21 43 21.9^
43 32.42
14 54 51.7
53 50.1
7.8906
8.6631
3.25
3.96
4
6 49.2
308
21 43 83.55
43 44.67
14 53 43.5
52 384
7.9189
8.6876
3.25
3.95
5
6 45.5
309
21 43 45.87
43 57.67
14 52 314
51 22.8
7.9454
8.7108
3.24
3.95
6
6 41.8
310
21 43 58.93
44 11.41
14 51 15.5
50 34
7.9703
8.7326
3.24
3.94
7
6 38.1
311
21 44 12.74
44 25.89
14 49 55.8
48 40.2
7.9936
8.7536
3.24
3.94
8
6 34.4
312
21 44 27.29
44 41.11
14 48 32.3
47 13.2
8.0155
8.7736
3.24
3.94
9
6 30.7
313
21 44 42.57
44 57.06
14 47 4.9
45 424
8.0362
8.7926
3.24
3.93
10
6 27.0
314
21 44 58.59
45 13.74
14 45 33.7
44 7.9
8.0559
8.8104
3.23
3.93
11
6 23.3
315
21 45 15.33
45 31.14
14 43 58.9
42 29.7
8.0746
8.8272
3.23
3.92
12
6 19.7
316
21 45 32.79
45 49.25
14 42 204
40 47.8
8.0923
8.8432
3.23
3.92
13
6 16.1
317
21 45 50.96
46 8.06
14 40 38.1
39 2.2
8.1092
8.8586
3.23
3.92
U
6 12.5
318
21 46 9.83
46 27.57
14 38 52.2
37 13.0
8.1253
8.8736
3.22
3.91
15
6 8.9
319
21 46 29.40
46 47.78
14 37 2.7
35 20.2
8.1407
ft.8880
3.22
3.91
16
6 5.3
320
21 46 49.67
47 8.67
14 35 9.6
33 23.7
8.1555
8.9019
3.21
3.90
17
6 1.7
321
21 47 10.62
47 30.23
14 33 12.8
31 23.6
8.16%
8.9154
3.21
3.90
18
5 58.1
322
21 47 32.24
47 52.45
14 31 124
29 20.0
8.1830
8.9283
3.21
3.90
19
5 54.5
323
21 47 54.52
48 15.34
14 29 8.5
27 12.9
8.1959
8.9406
3.20
3.90
20
5 51.0
324
21 48 17.46
48 38.88
14 27 1.2
25 24
8.2084
8.9524
3.19
3.90
21
5 47.5
325
21 48 41.05
49 3.07
14 24 504
22 48.5
8.2204
8.9638
3.19
3.89
22
5 44.0
326
21 49 5.29
49 27.90
14 22 36.2
20 31.1
8.2320
8.9749
3.18
3.89
23
5 40.5
327
2149 30.17
49 53.36
14 20 18.5
18 10.3
8.2432
8.9857
3.17
3.89
24
5 37.0
328
21 49 55.68
50 19.44
14 17 574
15 46.1
8.2539
8.9961
3.17
3.89
25
5 33.5
329
21 50 21.81
50 46.13
14 15 33.0
13 18.6
8.2641
9.0062
3.16
3.88
26
5 30.0
330
21 50 48.55
51 13.44
14 13 5.2
10 47.8
8.2738
9.0160
3.16
3.88
27
5 26.5
331
21 51 15.90
51 41.35
14 10 34.1
8 13.7
85834
9.0255
3.15
3 88
28
5 23.0
332
21 51 43.86
52 9.86
14 7 59.8
5 36.3
8.2927
9.0348
3.15
3.88
29
5 19.5
333
21 52 12.41
52 38.96
14 5 22.1
2 55.6
8.3017
9.0438
3.14
3.88
30
5 16.2
334
21 52 41.55
53 8.64
14 2 412
0 11.7
8.3104
9.0525
3.14
3.87
Dec I
5 12.7
335
21 53 11.28
53 38.90
13 59 57.1
57 24.7
8.3188
9.0609
3.13
3.87
2
5 9J5
336
21 53 41.58
54 9.73
13 57 9.9
54 34.5
8.3270
9.0691
3.13
3.87!
3
5 5.9
332
21 54 1245
54 41.12
13 54 19.5
5141.1
8.3350
9 0771
3.12
3.871
4
5 2.5
338
21 54 43.88
55 13.06
13 51 25.9
48 44.5
8.3427
9.0850
3.12
3.871
5
4 59.1
339
21 55 15.85
55 45.55
13 48 29.1
45 44.8
8.3502
9.0927
3.11
3.86!
6
4 55.7
340
21 55 48.37
56 18.58
13 45 29.2
42 42.0
8.3575
9.1002
3.11
3.86
7
4 52.3
341
21 56 21.44
56 52.15
13 42 26.2
39 36.2
8.3646
91075
3.10
3.86
8
4 48.9
342
21 56 55.04
57 26.25
13 39 20.2
36 274
8.3715
9.1146
3.09
3.86
9
4 45.6
343
21 57 29.17
58 0.86
13 36 11.2
33 15.6
8.3781
9.1215
3.08
3.85
10
4 42.3
344
21 58 3.81
58 35.99
13 32 59.2
30 0.7
8.3845
9.1283
3X)8
385
11
4 39.0
345
21 58 38.96
59 11.62
13 29 44.2
26 42.8
8.3907
9.1349
3.07
3.84
12
4 35.6
346
21 59 14.62
59 47.75
13 26 26.1
23 22.0
8.3967
9.1413
3.06
3.84
13
4 32.3
347
21 59 50.77
60 24.36
13 23 5.1
19 584
8.4026
9.1476
3.05
8.83
14
4 29.0
348
22 0 27.41
1 144
13 19 414
16 31.9
84083
9.1537
3.05
3.83
15
4 25.7
349
22 1 4.52
1 38.99
13 16 14.8
13 2.5
84138
9.1596
3.04
3.82
16
4 22.4
350
22 142.09
2 17.00
13 12 45.3
9 304
84191
9.1654
8.04
3.82
17
4 19.1
351
22 2 20.12
2 5546
13 9 13.1
5 55.6
84242
9.1710
3.03
3.81
18
4 15.8
352
22 2 58.60
3 34.36
13 5 38.2
2 18.1
84292
9.1765
3.02
3.81
19
4 12^
353
22 8 37.52
4 13.70
12 62 0.5
58 37.9
8.4341
9.1819
3.01
3.80
20
4 9.2
354
22 4 16.88
4 53.47
12 58 20.1
54 55.0
8.4389
9.1872
3.01
3.80
21
4 6.0
355
22 4 56.67
5 33.66
12 54 37.1
51 9.5
8.4436
9.1924
3.00
3.79
22
4 2.7
356
22 5 36.87
6 14.26
12 50 51.5
47 21.3
8.4481
9.1975
2.99
3.79
23
3 59.4
357
22 6 1749
6 55.27
12 47 3.2
43 30.5
84525
9.2024
2 98
3.78
24
3 56.2
358
22 6 58.51
7 36.67
12 43 12.3
39 37.2
8.4567
9.2072
2.97
3.78
25
3 53.0
359
22 7 39.92
8 1846
12 39 18.8
35 414
84608
9.2119
2.97
3.77
26
3 49.8
360
22 8 21.72
9 0.64
12 35 22.9
3143.1
84648
9.2165
2.96
3.77
27
3 46.6
361
22 9 3.91
9 43.19
12 3124.5
27 424
8.4687
9.2210
2.95
3.76
28
3 43.4
362
22 9 4647
10 26.11
12 27 23.7
23 39.2
84725
9.2254
2.94
3.75
29
3 40.2
363
22 10 29.40
11 940
12 23 204
19 33.7
84762
9.2297
2 93
3.75
30
3 37.0
364
22 11 12.70
11 53.06
12 19 14.7
15 25.8
84799
9.2340
2.92
3.74
31
3 33.8
365
22 11 56.36
12 37.08
12 15 6.7
11 15.5
84835
9.2382
2.91
3.74
32
3 30.7
366
22 12 40.38
13 21.45
-12 10 563
7 2.9
+84871
+9.2423
+2.90
+3.73
332
SATURN, 1855.
Mara Solar Time of
MtridUn TraoMt.
Sidfr
roal
Date.
Rifhi'KcerMion.
Appannt DacUnation.
Log. of Motion in a
Sidereal Mimit«.
Lm. of Factor
for£coiulildr«.|
At Sid. Oh.
At
Tranalt
AtSkLOh.
At
Transit.
InELA.
In Dee.
1dR.A.
In Dee
d.
h. m.
h. in. a.
m. a.
O 1 N
1 II
Jan. 0
9 54.9
0
4 35 44.76
35 41.55
+20 17 28.0
17 23.6
-8.0663
-8.197
+2.90
+338
1
9 50.7
1
4 35 28.21
36 25.07
20 17 5.8
17 1.6
8X1561
8.180
2.90
8.28
3
9 46.5
2
4 35 12.00
35 8.92
20 16 444
16 404
8.0469
8.164
231
338
3
9 42.3
3
4 34 56.12
34 53.11
20 16 23.8
16 20X)
8.0377
8.147
231
338
4
9 38.1
4
4 34 40.57
34 37.64
20 16 4.0
16 0.3
8.0287
8.130
232
338
5
9 33.91 5
4 34 25.35
34 2248
20 15 44.9
16 414
8.0194
8.113
2.92
338
6
9 29.7, 6
4 34 10.47
34 7.66
20 16 26.6
16 23.2
8.0092
a094
2.93
3.29
7
9 25.51 7
4 33 55.93
33 53.20
20 16 9.1
15 6.8
7.9986
8U)75
2.94
3.29
6
9 21.4
8
4 33 41.75
33 39.09
20 14 524
14 49.3
7.9876
8.064
235
330
9
9 17.2
9
4 33 27.94
33 25.35
20 14 36.5
14 33.6
7.9760
8.031
2.96
332
10
9 13.0
10
4 33 14.50
33 11.98
20 14 21.5
14 18.7
7.9640
8X)06
237
333 1
11
9 8.9
11
433 143
32 58.99
20 14 7.3
14 4.7
7.9614
7.980
237
334,
12
9 4.8
12
4 32 48.75
32 46.38
20 13 54.0
13 61.5
7.9378
7.949
238
335 1
13
9 0.6
13
4 32 36.46
32 34.17
20 13 41.6
13 39.3
7.9238
7.917
2.98
836;
14
8 56.5
14
4 32 24.67
32 22.36
20 13 30.2
13 28.1
7.9094
7.881
2.99
337 1
15
8 52.4
15
4 32 13.08
32 10.95
20 13 19.7
18 17.8
7.8941
7.844
2.99
338 1
16
8 48.3
16
4 32 2.00
31 59.95
20 13 10.1
13 84
7.8777
7.801
3.00
838;
17
8 44.2
17
4 3151.34
31 49.38
20 18 1.5
13 0.0
7.8606
7.760
3.00
338
18
8 40.0
18
4 3141.10
31 39.22
20 12 63.9
12 62.6
7.8428
7.696
331
838!
19
8 35.9
19
4 3131.29
31 2948
20 12 47.2
12 46.0
7.8237
7.637
8.02
SS9
20
8 31.9
20
4 31 21.91
31 20.18
20 12 414
12 404
7.8036
7.662
333
838
21
8 27.8
21
4 31 12.97
31 11.33
20 12 36.7
12 36.9
7.7824
7466
8.03
338
22
8 23.7
22
4 31 4.46
31 2.90
20 12 33X)
12 324
7.7699
7.347
333
838
23
8 19.6
23
4 30 56.40
30 54.92
20 12 30.3
12 29.9
7.7357
7.174
3.03
338
24
8 15.6
24
4 30 48.79
30 47.39
20 12 28.7
12 28.6
7.7097
6383
8.04
338
25
8 11.5
25
4 30 41.68
.30 40.33
20 12 28.1
12 28.1
7.6824
-6342
834
838
26
8 7.5
26
4 30 34.93
.30 33.71
20 12 2%^
12 28.7
7.6632
+6.795
8.04
339
27
8 3.5
27
4 30 28.68
30 27.54
20 12 29.9
12 30.3
7.6212
7.162
335
8.40
28
7 59.6
28
4 30 22.89
.30 21.84
20 12 324
12 33.0
7.5863
7319
8.05
340
29
7 55.6
29
4 30 17 56
30 16.61
20 12 36.9
12 36.7
7.6488
7449
3.05
341
30
7 51.5
30
4 30 12.70
30 11.83
20 12 40.5
12 41^
7.6072
7363
335
342
31
7 47.5
31
4 30 8.31
30 7.53
20 12 46.2
12 474
7.4697
7.634
3.05
341
P«b. 1
7 43.5
32
4 30 4.40
30 3.70
20 12 62.9
12 64.8
74069
7.702
3.06
340
2
7 39.5
33
4 30 0.96
30 0.35
20 13 0.7
13 2.2
7.8481
7.761
3.06
839
3
7 35.5
34
4 29 57.99
29 6746
20 13 9.6
13 11.2
7.2786
7312
836
338
4
7 31.5
35
4 29 55.49
29 55.05
20 13 194
18 21.3
7.1957
7.869
3.06
838
5
7 27.6
36
4 29 53.46
29 68.12
20 13 30.3
13 324
7.0957
7.900
836
838
6
7 23.6
37
4 29 51.90
29 61.65
20 13 423
13 44.6
6.9622
7.938
305
338
7
7 19.7
38
4 29 50.82
29 60.66
20 13 55.3
13 67.8
6.7659
7.972
8.05
338
8
7 15.7
39
4 29 50.22
29 50.15
20 14 9U)
14 12.0
-6.4039
8j004
835
838
9
7 11.8
40
4 29 50.09
29 50.11
20 14 244
14 27.3
+6.8830
BJ035
8.05
338
10
7 7.8
41
4 29 5044
29 50.55
20 14 40.6
14 43.6
6.6088
8363
335
838
11
7 3.9
42
4 29 51.26
29 51.46
20 14 57.7
15 1.0
6.8649
8390
3.05
338 i
12
7 0.0
43
4 29 52.55
29 52.84
20 15 15.9
15 194
7X)263
8.113
835
838 1
13
6 56.1
44
4 29 54.32
29 54.70
20 15 36.1
16 38.8
7.1437
8.136
835
338
14
6 52.2 45 1
4 29 56.56
29 57.03
20 15 553
16 59.2
7J861
8.158
8,05
838
15
6 48.4
46
4 29 69.28
29 69.83
20 16 16.5
16 20.7
7.3122
8.179
304
338
16
6 44.5
47
4 30 247
30 3.11
20 16 38.8
16 48 J
7J763
8300
834
338
17
6 40.6
48
4 30 6.13
30 6.86
20 17 2.1
17 6.7
74327
8319
3.04
838
18
6 36.7
49
4 30 10.27
30 11X)9
20 17 26.6
17 81.2
74826
8.237
3.04
838
19
6 32.9
50
4 30 14.88
30 15.79
20 17 61.9
17 66.7
73274
8364
8.04
838
20
6 29.0* 51
4 30 19.97
30 20.97
20 18 18.2
18 28.1
7.6681
8.269
8.04
837
21
6 25.2 52
4 30 26.54 30 26.63
20 18 454
18 6a6
7.6051
8.284
834
336
22
6 21.4 53
4 30 31.57 30 32.75
20 19 13.6
19 18.9
76386
8.299
8.04
335
23
6 17.5 54
4 30 38.07 30 39.34
20 19 42.8
19483
7.6696
8314
834
834
24
6 13.7 55
4 30 45.03 30 46.39
202OI2.9I2OI8.6
7.6984
8327
8.04
833
25
6 9.9! 56
4 30 5245 .30 53.90
90 20 43.9120 494
7.7256
8340
3.03
333
26
6 6.1 57
4 31 0.34 31 1.87
20 21 15.9 2121.9
7.7610
8361
8.03
833
27
6 2.3 58
4 31 8.69131 10.30
20 21 48.8,21 64.9
7.7746
8364
833
833
28
6 58.5 59
4 31 1748|3l 19.18
20 22 22.5 22 28.9
7.7968
8376
833
833
yur. 1
5 54.8| 60
4 81 26.73;31 28.51
-•-20 22 67.1 "23 3.7
+7.8178
+8385
+3.03
+833
SATURN, 1855.
For Wuhineton Sidereal Noon and Meridian Tranait.
333
Mean SolarTlmeof
Side
real
Rif ht Aacenaion. •
f
Apparent Declination.
Lo«. of MotLm in a
Sdereal Minute.
Loff. of Factor
forSocoodmtr*
Meridian Transit.
At
Tranait.
-
Dale.
At Sid. Oh.
At Sid. Oh.
At
Transit.
InR.A.
In Dec.
InR.A.
Ill Dec.
d.
h m.
h. in. ».
m. 8.
O 1 H
1 II
Mar. 2
5 51.0
61
4 31 36.42
31 38.29
+20 23 32.5
23 39^1
-1-7.8378
+8.396
+3.02
+3JJ3!
3
5 47.2
62
4 31 46.55 31 48.51
20 24 8.8
24 15.7
7.8568
8.406
8.02
8.331
4
5 43.5
63
4 31 57.13
31 59.17
20 24 45.9
24 53.0
7.8749
8.416
84)1
3.33
5
5 39.7
64
4 82 8.15
32 10.27
20 25 23.9
26 31.2
7.8920
8426
3.01
3.33
6
5 36.0
65
4 32 19.59
32 21.79
20 26 2.7
26 10.1
7.9083
8.434
3.00
3.33
7
5 32^
66
4 32 3M7
32 33.76
20 26 42.2
26 49.8
7.9240
8442
3.00
3.31
8
5 28.5
67
4 32 43.78
32 46.16
20 27 22.4
27 30.1
7.9390
8.451
2.99
3.29
9
5 24.8
68
4 32 56.51
32 58.96
20 28 3.5
28 11.3
7.9535
8459
2.99
3.28,
10
5 21.1
69
4 33 9.66
33 12.20
20 28 453
28 53.3
7.9674
8466
2.98
3.28
11
5 17.4
70
4 33 23.23
33 25.85
20 29 27.8
29 36.0
7.9809
8474
2.98
3.28;
12
5 13.7
71
4 33 37.22
33 39.92
20 30 11.1
30 19.4
7.9938
8.481
2.97
3.27
13
5 10.0
72
4 33 51.62
33 54.40
20 30 55.0
31 3.4
8.0061
8488
2.97
3.26
14
5 6.3
73
4 34 6.43
34 9.29
20 31 39.6
31 48.1
8.0180
8494
2.97
3.25
15
5 2.6
74
4 34 21.64
34 24.58
20 32 24.9
32 33.6
80296
8.501
2.97
8.24
16
4 59.0
75
4 34 37.26
34 40.28
20 33 109
33 19.7
8.0408
8.507
2.97
3.23
17
4 55.3
76
4 34 53.28
34 56.38
20 33 57.5
34 6.4
8.0517
8.513
2.96
3.20
18
4 51.6
77
4 35 9.70
35 12.88
20 34 44.8
34.^3.8
8.0621
8.519
2.96
3.17
19
4 48.0
78
4 35 26.51
35 29.76
20 35 32.8
35 42.0
8.0722
8.526
2.96
3.14
20
4 44.3
79
4 35 43.71
35 47.04
20 36 21.4
86 30.7
8.0820
8.530
2.95
3.11
21
4 40.7
80
4 36 1.30
36 4.70
20 37 10.5
37 19.9
8.0916
8.537
2.94
3.08
22
4 37.1
81
4 86 19.27
36 22.75
20 88 0.2
38 9.7
8.1007
8.540
2.94
3.06
23
4 33.4
82
4 86 37.62
36 41.17
20 38 50.3
38 59.9
8.1095
8.544
2.93
3.04
24
4 29.8
83
4 36 56.33
36 59.96
20 39 41.0
39 50.7
8.1180
8.549
292
3.02
25
4 26.3
84
4 37 15.41
37 19.11
20 40 32.2
40 42.0
8.1263
8.553
2.91
3.00
26
4 22.7
85
4 37 34.85
37 38.62
20 41 23.9
4133,8
8.1343
8.557
2.90
2.98
27
4 19.1
86
4 37 54.65
37 58.50
20 42 16.0
42 26.1
8.1421
8.560
2.90
2.98
28
4 15.5
87
4 38 14.80
38 18.71
20 43 8.6
43 18.8
8.1497
8.563
2.89
2.96
29
4 11.9
88
4 38 35.30
38 39.28
20 44 1.4
44 11.7
8.1569
8.565
2.89
2.95
30
4 8.3
89
4 38 56.14
39 0.19
20 44 54.6
45 5.0
8.1639
8569
2.89
2.94!
31
4 4.7
90
4 39 17.31
39 21.43
20 45 48.2
45 58.6
8.1708
8.572
2.89
2.91
Apr. 1
4 1.2
91
4 39 38.82
39 43.01
20 46 42.1
46 52.6
8.1776
8.574
2^89
2.86
2
3 57.6
92
4 40 0.66
40 4.92
20 47 36.3
47 46.8
8.1839
8.577
2.88
2.82
3
3 54.0
93
4 40 22.81
40 27.14
20 48 30.8
48 41.4
8.1901
8.579
2.88
2.78
4
3 50.5
94
4 40 45.28
40 49.68
20 49 25.7
49 36.4
8.1962
8.582
2.88
2.75
5
3 46.9
95
4 41 8.06
41 12.53
20 50 20.8
50 31.6
8.2021
8.584
2.87
2.721
6
3 43.4
96
4 41 31.15
41 35.68
20 51 16.2
51 27.1
8.2080
8.586
2.87
+2.68
7
3 39.8
97
4 41 54.55
41 59.15
20 52 11.9
52 22.8
8.2137
8.589
2.86
8
3 36J3
98
4 42 18 26
42 22.93
20 53 7.9
53 18.9
8.2191
8.591
2.86
9
3 32.8
99
4 42 42.25
42 46.99
20 54 4.1
54 15.1
8.2244
8 592
2.85
10
3 29.2
100
4 43 6.54
43 11.35
20 55 0.4
55 11.5
8.2297
8.596
2.84
11
3 25.7
101
4 43 31.13
43 36.00
20 55 57.1
56 8.3
8J2349
8.596
2.83
12
3 22.2
102
4 43 56.01
44 0.94
20 56 54.0
57 5.2
8.2399
8.597
2.82
13
3 18.7
103
4 44 21.17
44 26.17
20 57 51.0
58 2.3
8.2447
8.598
2.81
14
3 15.2
104
4 44 46.60
44 51.66
20 58 48.1
58 59.4
8.2494
8.599
2.80
15
3 11.7
105
4 45 12.31
45 17.43
20 59 45.5
59 56.9
8.2540
8.600
2.79
16
3 8.2
106
4 45 38.29
45 43.47
21 0 42.9
0 54.3
8.2585
8.601
2.79
17
3 4.7
107
4 46 4.54
46 9.78
21 140.4
1 51.9
8.2629
8.601
2.78
18
3 1.2
108
4 46 31.05
46 36.35
21 2 37.9
2 49.4
8.2671
a602
2.77
19
2 57.7
109
4 46 57.81
47 3.17
21 3 35.6
3 47.1
8.2711
8.603
2.76
20
2 54.2
110
4 47 24.82
47 80.24
21 4 33.3
4 44.8
8.2751
8.602
2.75
21
2 50.7
111
4 47 52.07
47 57.54
21 5 80.9
5 42.4
8.2789
8.602
2.74
22
2 47.3
112
4 48 19.56
48 25.09
21 6 28.5
6 40X)
8.2826
8.602
2.73
23
2 43.8
113
4 48 47.28
48 52.86
21 7 26.0
7 37.5
8.2862
8.601
273
24
2 40.3
114
4 49 15.23
49 20.87
21 8 23.5
8 35.0
8.2897
8.601
2.72
25
2 36.9
115
4 49 43.40
49 49.09
21 9 20.9
•9 32.4
8.2933
8.600
2.71
26
9 33.4
116
4 50 11.79
50 17.53
21 1018.2
10 29.7
8.2967
8.599
2.70
27
2 29.9
117
4 50 40.39
50 46.19
21 11 15.4
11 26.9
8.2996
8.599
2.69
28
2 26.5
118
4 51 9.20
51 15.05
21 12 12.6
12 24.1
8.3026
8.598
2.69
29
2 23.0
119
4 51 38.20
51 44.10
21 13 9.6
13 21.1
8.3055
8.597
268
30
2 19.6
120
4 52 7.40
52 13.35
21 14 6.5
14 18i)
8.3084
8.596
2.67
1 M»y 1
2 16.1
121
4 52 36.79
52 42.79
+21 15 3.2
15 14.7
+8.3112
+8.595
+2.66
334
SATURN, 1855.
For WMhio^ton Sidereal Noon and Meridian Tranait.
Maui Solar Time of
Meridian Tranail.
Side-
real
Dau.
Apparent
Rifht Aacenaion.
Appveot Declination.
Loff. of Motion ill a
Sidereal Minute.
Lof . o( Factor
for becood Dirt's
At Sid. OIL
At
Trajuit.
At Sid. Oh.
At
Tranait.
InRA.
In Dec
InltA.
In Dec
d.
h. m
h. m. a.
ni. a.
o < a
1 II
Mar 8
8 12.7! 122
4 53 6JJ7
53 12.42
+21 15 59.9
16 11.4
+8.3140
+8.594
+3.65
3
2 9.3|l23
4 53 36.14
53 42.23
21 16 56.4
17 7.9
8.3166
8.593
3.64
4
2 5.8 124
4 54 6.08
54 12.22
21 17 52.7
18 4.3
8.3192
8.591
3.62
5
2 2.4.125
4 54 36.20
54 42.38
21 18 48.8
19 0.3
8.3217
8.590
2.60
6
1 59.0 126
4 55 6.49
55 12.78
21 19 44.8
19 56.3
8.3242
8.589
2.59
-8.68
7
1 55.5.127
4 55 36.96
55 43.83
2120 40.6
30 53.0
8.3266
8.587
2.58
8.68
8
1 52.1 128
4 56 7.59
56 13.90
21 21 36.1
31 47.5
8.3288
8.585
2.57
8.70
9
I 48.7 129
4 56 38.38
56 44.73
21 22 31.4
22 42.8
8.3312
8.583
2.56
8.73
10
1 45.3 130
4 57 9.33
57 15.72
21 23 26.5
23 37.8
8.3333
8.581
2.55
8.74
11
1 41.9 131
4 57 40.43
57 46.87
21 24 21.3
24 32.6
8.3354
8.579
2.53
8.76
18
1 38.51 132
4 58 11.69
58 18.14
21 25 15.8
25 27.1
8.3376
8.577
2.52
8.78
13
1 35.0 ! 133
4 58 43.09
58 49.61
21 26 10.1
26 21.3
8.3395
8.575
2J^1
8.80
14
131.6
134
4 59 14.62
59 21.18
21 27 4.0
27 15.1
8.3413
8.573
2.50
8.82
15
1 28^
135
4 59 46.28
59 52.88
21 27 57.6
28 8.6
8.3430
8.569
248
8.84
16
1 24.8
136
5 0 18.07
0 24.71
21 28 508
29 1.8
8.3448
8.566
246
8.86
17
121.4
137
5 0 49.99
0 56.67
21 29 43.6
29 54.6
8.3465
8.563
2.34
8.88
18
1 18.0
138
5 12203
1 28.74
21 30 36.1
30 47.1
8.3481
8.560
2.32
8.90
19
1 14.6
139
5 154.18
2 0.92
21 31 28J2
31 39.1
8.3495
8.557
2;io
8.92
20
1 11.2
140
5 2 26.43
2 33.21
21 32 19.9
32 30.7
8.3508
8.553
2.31
3.94
21
I 7.8
141
5 2 58.78
3 5.60
2133 11.1
33 21.8
8.3522
8.549
2.34
8.96
23
1 4^
142
5 3 31.23
3 38.08
2134 2.0
34 12.6
8.3534
8.546
2.32
3X)0
23
1 1.1
143
6 4 3.77
4 10.65
21 34 52.4
35 8.0
8.3546
8.543
2.30
3.04
24
0 57.7
144
5 4 36.40
4 43.31
21 35 42.5
35 53.0
8.3558
8540
2.27
3J0S
25
0 54.3
145
5 5 9.11
5 16.06
21 36 32.1
36 42.6
8J1569
8.535
2.25
3.14
26
0 50.9
146
5 5 41.91
5 48.88
21 37 21.4
37 31.8
8.3579
8.533
2.22
3.16
27
0 47.5
147
5 6 14.77
6 21.77
21 38 10.2
38 20.5
8.3588
8.538
2.20
3.16
28
0 44.1
148
5 6 47.70
6 64.72
21 38 58.6
39 8.8
8.3597
8.534
2.17
3.16
29
0 40.8
149
5 7 20.70
7 27.75
21 39 46.4
39 56.5
83606
8.519
2.14
3.16
30
0 37.4
150
5 7 53.77
8 0.84
21 40 33.8
40 43.8
8.3613
8.515
2.11
3.161
31
0 34.0
151
5 8 26.88
8 33.98
21 41 20.8
41 30.7
8.3620
8.511
2X)8
3.16
1 June 1
0 30.6
152
5 9 0.05
9 7.18
2142 7.2
42 17.1
8.3627
8.506
2.02
3.16
2
0 27.2
153
5 9 33 27
9 4042
21 48 53.2
43 3.0
8.3633
8.502
1.95
3.16
3
0 23.8
154
5 10 6.53
10 13.70
21 43 38.7
43 48.4
8.3638
8.497
1.86
3.16
4
0 20.5
155
5 10 39.83
10 47.02
21 44 23.7
44 33.3
8.3643
8.493
1.77
3.16
5
0 17.1
156
5 11 13.17
11 20.38
2145 8.2
45 17.8
8.3647
8.487
+1.68
3.16
6
0 13 7
157
5 1146.53
11 53.76
21 45 52.2
46 1.7
8.3652
8.483
3.16
7
0\0J3
158
5 12 19 94
12 27.18
21 46 35.7
46 45.1
8.3656
8.478
3.16
8
0 6.9
159
5 12 53JI7
13 0.63
21 47 18.7
47 28X)
8.3659
8.478
8.16
9
0 3.6
160
5 13 26.82
13 34.10
2148 11
48 10.3
8.3663
8.466
8.16
10
0 0.2
161
5 14 0.29
14 7.58
21 48 42.9
48 52X)
8.3662
8.461
8.16
10 83 56.9
162
5 14 33.75
14 41X>5
21 49 24.3
49 33.3
8.3662
8455
8.16
11
23 53.5
163
5 15 7.21
15 14.53
2150 5.1
50 14.0
8.3662
8.449
3.16
12
23 50.1
164
5 15 40.68 15 48.01
21 50 45.4 50 54.2
8.3662
8444
3.16
1 13 23 46.7
165
5 16 14.14 16 21.49
21 51 25.1 5133 8
8.3662
8438
8.16
i **
23 43.3
166
5 16 47.60 16 54.96
21 52 4.3 52 12.9
8.3660
8.438
-1.68
3.16
1 15
83 39.9
167
5 17 2IX>4 17 28.41
2152 42.9152 51.4
83658
8.485
1.79
3.16
1 1«
83 36.6
168
5 17 54^6 18 1.84
2153 21.0 53 29.4
8.3655
8418
1.89
8.16
»7
83 33.8
169
5 18 27.86 18 35.24
2153 58.4 54 6.7
8.3653
8.413
1.99
3.16
18
83 89.8
170
6 19 1.22 19 8.61
21 54 35.3154 43.4
8.3647
8.404
2.09
8.16
1 19
83 86^
171
5 19 34.55jl9 41.95
2155 11.5155 19.5
8.3643
8.897
2.18
8.16
{ 20 23 23.0
178
5 20 7.84120 15.24
81 55 47.2 55 55.1
8.3637
8JI91
2.23
8.16
! 21
83 19.7
173
5 20 41.10 20 48.50
21 56 22.3 56 30.1
8.3633
8.384
8.35
3.14
28 23 16;j
174
5 21 14.30 2121.70
21 56 56.9 57 4.5
8.3634
8JI76
8.86
8.131
! 23 23 12.9
175
5 81 47.45 21 54.85
21 57 30J 57 38.3
83617
8.367
8.88
8.10
1 84
88 9.5 176
5 22 20.55 22 27.95
8158 4X) 58 11.4
8.8611
8.359
8.89
8i»|
85
S3 6.8 177
5 22 53.59 23 0.99
81 58 86.6 58 43.9
8.8603
8.351
8.30
8X)8'
86
83 8.81 178
5 23 26.56 23 33.95
81 59 8.7 59 15.9
8.3593
8.344
8J11
: 3^
87
88 59.4 i 179
5 23 5946 24 6.84
81 59 40 J, 59 47^
8.8583
8.335
8.33
■ 3i>8
88
88 56 0 180
5 34 33.28 34 39.66
88 0 11.8 Ol&l
8.3573
8.337
8JI5
3.08
1 ^
28 53.6 181
5 25 5.03 24 1841
88 0 41.5 0 48.3
8.3563
8J19
8.36
8.08
! 30
83 49.2* 182
1
5 85 37.70 25 45.08
+38 1 11.3 1 17.9
+8.3553
-
+8.311
-8JI8
, -3j08
SATURN, 1855.
For Washington Sidereal Noon and Meridian Trenatt.
335
Mean Solar Time of
Side
real
Apparent
RIglii AeceiiBion.
Apparent Declination.
Log. of Motion in a
Sidereal Minuta
Log. of Factor
forScondDiflPa.
Meridian Tranaiu
At
TratwiL
At
Tranait.
Date.
At Sid. Oil.
At Sid 01).
In R.A.
In Dec
InR.A.
In Dec.
d.
July 1
h. m.
22 45.8
183
h. m. 9.
5 26 10.28
m. 8.
26 17.65
+2S i4S,5
+8J541
+8.305
-2.39
-«.08
2
22 42.4
184
5 26 42.78
26 50.14
22 2 9.1
2 15.6
8J528
8.293
241
3.08
3
22 39.0
185
5 27 15.17
27 22.52
22 2 37.0
2 43.3
8.3514
8.283
244
3.08
4
22 35.6
186
5 27 47.46
27 54.80
22 3 4.4
3 10.6
8.3500
8.275
2.45
3.08
5
22 32.2
187
5 28 19.65
28 26.98
22 3 31.2
3 37.3
8.3486
8.265
2.46
3.08
6
22 28.8
188
5 28 51.73
28 59X)5
22 3 57.4
4 3.4
8.3471
8.254
247
3.08
7
22 25.4
189
5 29 23.70
29 31.00
22 4 22.9
4 28.7
8.3457
8.245
2.49
3.08
8
22 22.0
190
5 29 55.56
30 2.85
22 4 48.0
4 53.7
8U5441
8.236
2.50
3.08
9
22 18.6
191
5 30 27 30
30 34.56
22 5 12.5
5 18.0
8.3423
8.224
2.52
3.08
10
22 15.2
192
5 30 58.91
31 6.15
22 5 36.3
5 41.7
8.3406
8.214
2.53
3.08
11
22 11.8
193
5 31 30.39
31 37.61
22 5 59.6
6 4.9
8.3387
8.204
2.55
3.08
12
22 8.4
194
5 32 1.73
32 8.93
22 6 22.4
6 27.6
8.3367
8.193
2.56
3.08
13
22 5.0
195
5 32 32.92
32 40.10
22 6 44.5
6 49.5
8.3347
8.181
2.58
3.08
14
22 1.6
196
5 33 3.97
33 11.13
22 7 6.1
7 11.0
8.3327
8.171
2.60
3.08
15
21 58.8
197
6 33 34.86
33 42.00
22 7 27.1
7 31.9
8.3303
8.158
2.61
3.08
16
21 54.8
198
5 34 5.59
34 12.70
22 7 47.6
7 52.3
8.3281
8.145
2.62
3.08
17
2151.3
199
5 34 36.16
34 43 24
22 8 7.4
8 12.0
8.3258
8.134
2.63
3.08
18
21 47.9
200
5 35 6.57
35 13.63
22 8 26.8
8 31.2
8.3235
8.121
2.64
3.07
19
2144.5
201
5 35 36.81
35 43.84
22 8 45.5
8 49.8
8.3211
8.109
2.65
8.07
SO
2141.0
202
5 36 6.87
36 13.87
22 9 3.8
9 8.0
8.3176
8.096
2.66
8.05
21
21 37.6
203
5 36 36.75
36 43.72
22 9 21.4
9 25.4
8.3152
8.081
2.67
3.05
22
21 34.2
204
5 37 6.44
37 13.38
22 9 38.5
9 42.4
8J3128
8.067
2.68
3.04
23
21 30.7
205
5 37 35.94
37 42.86
22 9 55.0
9 58.8
8.3100
8.052
2.69
3.04
24
2127.3
206
5 38 5.25
38 12.14
22 10 11.0
10 14.7
8.3072
8.039
2.70
3.03
25
21 23.8
207
5 38 34.36
38 41.22
22 10 26.5
10 30.1
8.3042
8.023
2.70
3.02
26
2120.4
208
5 39 3.27
39 10.08
22 10 41.4
10 44.9
8.3011
8.006
2.71
3.02
27
21 16.9
209
5 39 31.97
39 38.73
22 10 55.7
10 59.1
8J2979
7.991
2.73
3.01
28 21 13.5
210
5 40 0.46
40 7.18
22 11 9.6
11 12.8
8.2947
7.975
.2.74
3.00
29
21 10.0
211
5 40 28.74
40 35.42
22 11 22.9
11 26.0
8.2915
7.957
2.75
2.99
30
21 65
212
5 40 56.81
41 3.44
22 1135.7
1138.7
8.2881
7.940
2.76
2.98
31
21 3.1
213
5 41 24.65
41 31.23
22 1148.0
1150.9
8.2845
7.924
2.76
2.97
Aug. 1
20 59.6
214
5 41 52.26
41 58.79
22 11 59.9
12 2.7
8.2808
7.908
2.77
2.96
2
20 56 1
215
5 42 19.63
42 26.11
22 12 11.3
12 13.9
8.2770
7.889
2.77
2 95
3
20 52.7
216
5 42 46.76
42 5.3.19
22 12 22.2
12 24.7
8.2732
7.869
2.78
2.95
4
20 49.2
217
5 43 13.66
43 20.04
22 12 32.6
12 35.0
8.2694
7.850
2.79
2.94
5
20 45.7
218
5 43 40.31
43 46.64
22 12 42.6
12 44.9
8.2653
7.833
2.80
2.94
6
20 42.2
219
5 44 6.71
44 12.99
22 12 52.2
12 54.4
8.2611
7.812
2.81
2.93
7
20 38.7
220
5 44 32.85
44 39.08
22 13 1.3
13 3.4
8.2568
7.791
2.82
2.92
8
20 35.2
221
5 44 58.74
45 4.91
22 13 10.0
13 12.0
8.2524
7.771
2.83
2.91
9
20 31.7
222
5 45 24.35
45 30.46
22 13 18.3
13 20.2
8.2474
7.747
2.84
2.90
10
20 28.1
223
5 45 49.69
45 55.74
22 13 26.1
13 27.9
8.2431
7.725
2.84
2.90
11
20 24.6
224
5 46 14 76
46 20.75
22 13 33.6
13 35.3
8.2388
7.702
2.85
290
12
20 21.1
225
5 46 39.56
46 45.50
22 13 40.6
13 42.2
8.2335
7.677
2.86
2.90
13
20 17.6
226
5 47 4.06
47 9.93
22 13 47.3
13 48.9
8.2279
7.651
2.86
2 89
14
20 14.1
227
5 47 28.25
47 34.04
22 13 53.5
13 55.0
8.2225
7.620
2.87
2.88
15
20 10.5
228
5 47 52.14
47 57.88
22 13 59.3
14 0.7
8.2173
7.590
2.87
2.88
16
20 7.0
229
5 48 15.74
48 21.41
22 14 4.7
14 6.0
8.2118
7.558
2.87
2.88
17
20 3.4
230
5 48 39.04
48 44.64
22 14 9.7
14 10.9
8.2060
7.529
2.88
2.87
18
19 59.9
231
5 49 2.02
49 7..55
22 14 14.4 14 15.51
8.1999
7.495
2.89
2.86
19
19 56.3
232
5 49 24.68
49 30.14
22 14 18.7
14 19.7
8.1938
7.460
2.89
2.86
20
19 52.8
233
5 49 47.02
49 52.41
22 14 22.7
14 23.7
8.1876
7.427
2.90
2.85
21
19 49.2
234
5 50 9.04
50 14.35
22 14 26.4
14 27.3
8.1813
7.386
2.90
2.85
22
19 4.^.6 235
5 .50 30.74
50 35.97
22 14 29.7
14 30.5
8.1749
7.340
291
2.84
23
19 42.1 236
5 50 52.12
50 57.28
22 14 32.7
14 33.4
8.1681
7.289
2.91
2.83
24
19 38.5 237
5 51 13.15
51 18.23
22 14 35.3
14 35.9
8.1609
7.240
2.91
2.82
25
19 34.9 238
5 5133.84
51 38.84
22 14 37.7
14 38.2
8.1537
7.194
2.92
2.81
26
19 31.3,239
5 51 54.18
51 59.10
22 14 39.8
14 40.2
8.1463
7.132
2.93
2.80
27
19 27.7 240
5 52 14.]8|52 19.02
22 14 41.6
14 41.9
8.1388
7.056
2.94
2.79
28
19 24.1 '241
5 52 33.83
52 38.59
22 14430
14 43.4
8.1310
6.972
294
2.78
29
19 20.5:242
5 52 53.12
52 57.80
22 14 44.3
14 44.7
8.1233
6.903
2.95
2.77
30
19 16.9J243
5 53 12.05
53 16.65
+22 14 45.8
14 45.8
+8.1147
+6.796
-2.95
-2.77
336
SATURN, 1855.
For Washington ^dereaJ Noon utA Meridian Tramit.
Mean SoUr Time of
Meridian Tranait.
.Side
real
Dau.
Apparent
Rifht Atfceftsion.
lioj. of Motion in a
Mdereal Minute.
Lqc. of Factor ||
lorSj^oudl/ilTa ||
At Sid. Oh.
At
Traiiait.
At Sid. Oh.
At
Transit.
InRA.
In Dec
IdR-A.
la Dec.
d.
h. m
h. m. a.
ni. 8.
O 1 N
1 II
Aug 31
19 13,3
244
5 53 30.67
53 35.12
+22 14 46.1
14 46.2
+8.1063
+6620
-2.96
-2.76
Sept. 1
19 9.61245
5 53 48.84
53 53.25
22 14 46.5
14 46.5
8.0974
6.386
2.97
2.75
S
19 6.0 246
5 54 6.67
54 11.00
22 14 46.8
14 46.8
8.0882
+6.018
2.97
2.74
3
19 2.3.247
5 54 24.12
54 28.36
22 14 46.8
14 46.8
8.0785
-5.345
2.97
2.74;
4
18 58.7 1 248
5 54 41.18
54 45.33
22 14 46.6
14 46.5
8.0687
6.319
2.98
2.73
5
18 55.0; 249
5 54 57.86
55 1.92
22 14 46.2
14 46.1
8.0587
6.541
2.98
2.72
6
18 51J3,250
5 55 14.15
55 18.12
22 14 4.5.6
14 45.4
8X)482
6.687
2.99
2.71:
7
18 47.6
251
5 55 30.04
55 33.91
22 14 44.8
U 44.6
8.0372
6.771
2 99
2.69!
8
18 43.9
252
5 55 45.53
55 49.30
22 14 43.8
14 43.6
8.0259
6.883
2.99
-2.68
9
18 40.3
253
5 56 0.61
56 4,28
22 14 42.6
14 42.3
8.0141
6.956
SjOO
10
18 36.6 254
5 56 15.28
56 18.85
22 14 41.3
14 40.9
8.0019
6.988
3.00
11
18 32.9 255
5 56 29.54
56 33.01
22 14 39.8
14 39.4
7.9893
7.032
3.01
12
18 29.2 1 256
5 56 43 38
56 46.75
22 14 38.2
14 37.7
7.9761
7 085
3.01
13
18 25.5 257
5 56 56 80
57 0.07
22 14 36JJ
14 35.8
7.9627
7.109
3.01
U
18 21.7 258
5 57 9.81
57 12,98
22 14 34.5
14 34.0
7.9485
7.137
3.01
15
18 18.0 259
5 57 22.38
57 25.45
22 14 32.4
14 31.8
7.9335
7.164
3.02
16
18 14.3 260
5 57 34.52
57 3749
22 14 30.2
14 29.6
7.9179
7.184
3.02
17
18 10.6 261
5 57 46.22
57 49.08
22 14 28.0
14 27.4
7.9019
7.204
3.03
18
18 6.8 262
5 57 57.50
58 0.25
22 14 25.7
14 25 1
7.8852
7.223
3X)3
19
18 3.1 263
5 58 8.33
58 10.97
22 14 23.3
14 22.6
7.8673
7.240
3.03
20
17 59.3 264
5 58 18.72
58 21.25
22 14 20.7
14 20.0
7.8487
7.250
3.04
21
17 55.6 265
5 58 28.66
58 31.08
22 14 18.1
14 17.4
7.8293
7.257
3.04
22
17 51.8 266
5 58 38.16
58 40.47
22 14 15.5
14 14.8
7.8089
7.266
3.04
23
17 48X) 267
5. •)8 47.2 1
58 49.41
22 14 12.8
14 12.1
7.7873
7.275
3j04
24
17 44.2 268
5 58 55.81
58 57.90
22 14 10.0
14 9.3
7.7646
7.280
3.04 II
25
17 40.41269
5 59 3.96
59 5.94
22 14 7.3
14 6.6
7.7404
7.285
3.04
26
17 36.6 270
5.59 11.65
59 13.51
22 14 4.5
14 3.8
7.7147
7.289
3.04
27
17 32.8 271
5 59 18.89
59 20.64
22 14 1.7
14 1.0
7 6875
7.292
3.04
28
17 29.0
272
5 59 25.67
59 27.31
22 13 58.9
13 58.2
7.6575
7.295
3.04
29
17 25.1
273
5 59 31.98
59 33.51
22 13 56.0
13 55.3
7.6255
7.297
3.04
30
17 21.3 274
5 59 37.83
59 39.24
22 13 53.2
13 52.5
7.5914
7.297
3,05
Oct, 1
17 17.41275
5 59 43.22
59 44.51
22 13 50.4
13 49.7
7.5534
7.295
3i)5
2
17 13.61276
5 59 48.13
59 49.30
22 13 47.6
13 46.9
7.5133
7J90
3.05
3
17 9.7 277
5 59 52.56
59 53.61
22 13 44.7
13 44.0
7.4649
7.289
3U)5
4
17 5 9 278
5 59 56.53
59 57.46
22 13 42.0
13 41.3
7.4133
7.289
sm
5
17 2,0 279
6 0 0.02
0 0.83
22 13 39.2
13 38.5
7J5528
7.289
3.06
6
16 58.1 280
6 0 3i)2
0 3.71
22 13 36.4
13 35.7
7.2825
7.289
3.06
7
16 54.2 281
6 0 5.54
0 6.11
22 13 33.6
13 32.9
7.1996
7.286
3.06
8
16 50JS 282
6 0 7.58
0 8.02
22 13 30.9
13 30.2
7.0969
7.283
3.06
9
16 46.4 283
6 0 9.14
0 9.47
22 13 28.1
13 27.4
6.9638
7J80
3.06
10
16 42.5 284
6 K) 10.23
0 10.44
22 13 25.4
13 24.8
6.7685
7.277
3.06
11
16 38.6. 285
6 0 10.83
0 10.92
22 13 22.6 13 22.0
+6.2308
7.273
3.06
12
16 34.7 286
6 0 10 94
0 10 90
22 13 20.0 13 19.4
H5.2308
7.267
3X)6
13
16 30.7 287
6 0 10.56
0 10.40
22 13 17.3|l3 16.7
6.6270
7.260
3.06
14
16 26.8 288
6 0 9.72
0 9.44
22 13 14.6 1 13 14.0
6.8750
7,254
3.06
15
16 22.8 289
6 0 8.40 0 8.00
22 13l2.oll3 11.4
7 0361
7.247
3.06
16
16 18.9 290
6 0 6.59 0 6.08
22 13 9.5 13 8.9
7.1534
7.240
3.06
17
16 U.9 291
6 0 430 0 3.67
22 13 7.0 13 6.4
7.2447
7.231
3.06
18
16 10.9 292
6 0 1.53 0 0.79
22 13 4.6 13 4.0
7.3202
7.220
3.06
19
16 6.9 293
5 59 58.28 59 57.42
22 13 2.2 13 1.7
7.3832
7,207
3.06
20
16 2.9 294
5 59 54.57 59 53.59
22 12 59.8 12 59.3
7.4382
7.192
3X)5|
21
15 58.9 295
5 59 50.38,59 49.28
22 12 57.6 12 571
7.4870
7.174
5.05
22
15 54 9 296
5 59 45.73s. 59 44.51
22 12 55.5:12 55.0
7.5309
7.161
9J05
23
15 50.9 297
5 59 40.60 59 39.27
22 12 53.4 12 53.0
7.5716
7.148
3XM
24
15 46.9 298
5 59 34.99 59 33.54
22 12 51.4 12 51.0
7.6077
7.135
3.04;
25
15 42.8 299
5 59 28.93 59 27.36
22 12 49.4 12 49.0
7.6410
7.122
3XM
26
15 38.8 300
5 59 22.41 '59 20.73
22 12 47.5 12 47.1
7.6713
7.109
3.03
27
15 34.8 301
5 59 1.5.42 59 13.62
22 12 45.7 12 45.3
7.6998
7.094
3.03
28
15 30.7 302
5 59 7.98 59 6.07
22 12 44.0 12 43.6
7.7261
7.079
3.02
29
15 26.6 303
5 59 0J09 58 58.07
22 12 42.3 12 41.9
7.7509
7.063
3.02
30
15 22.6 304
5 58 51.75.58 49.62
4^22 12 40.6,12 40.2
-7.7742
-7.047
-3.02; jj
SATURN, 1855.
For Waahingum Sidera«l Noon and Meridlaii TkwMit.
337
Mean SolarTfmeof
Meridian Trenail.
Side-
real
Date.
Right Aacenaion.
Apparent Dedioatioo.
Log. of Motion to a
SMereal Minute.
Log. of Factor
for&eondDiira.
At Sid. Oh.
AiTran.
At Sid. Oh.
AtTran.
lnR.A.
In Dec
InR.A.
In Dec
d.
Oct. 31
h. m.
15 18.5
305
h. m. a.
5 58 42.96
m. a.
58 40.72
+22 12 39.0
1 N
12 38.6
-7.7963
-7.032
-3X)1
Nor. 1
15 144
306
5 58 33.73
58 31.38
28 18 37.5
12 37.1
7J171
7.023
sm
S
15 10.3
307
5 58 S4.06
58 81.60
88 18 36.0
12 35.6
7.8368
7.014
8.00
S
15 6.2
308
5 58 13.95
58 11.39
88 18 34.5
12 34.2
7.8555
7xm
8.00
4
15 2.1
309
5 58 341
58 0.74
88 18 33.1
12 32.8
7.8738
6.998
8.99
5
14 58.0
310
5 57 5S44
57 49.67
88 18 31.7
12 314
7.8901
6.988
8.99
6
14 53.9
311
5 57 41J0&
57 38.17
88 18 30.3
12 30X)
7.9063
6.979
8.98
7
14 49.7
312
5 57 29.84
57 26.26
88 18 28.9
12 28.6
7.9816
6.970
8.98
8
14 45.6
313
5 57 17.01
57 13.94
22 12 87.5
12 27.2
7.9359
6.960
8.97
9
14 41.5
314
5 57 4.39
57 1.22
88 18 86.2
12 25.9
7.9497
6.950
8.96
10
14 37.3
215
5 56 51.36
56 48.09
22 12 25.0
12 24.7
7.9630
6.939
8.95
11
14 33.2
316
5 56 37.94
5634.57
22 12 23.7
12 234
7.9756
6.933
8.94
12
14 29.0
317
5 56 24.13
56 20.67
22 12 224
12 22.1
7.9876
6.929
8.93
13
14 24.8
318
5 56 9.95
56 641
22 12 21.1
12 20.8
7.9989
6.924
8.98
14
14 20.7
319
5 55 55.40
55 51.77
22 12 19.9
12 19.6
8.0096
6.921
8.91
15
14 16.5
320
5 55 40.48
55 36.76
22 12 18.6
12 18.3
8.0300
6.919
8.90
16
14 12.3
321
5 55 25.20
55 21.39
22 12 174
12 17.1
SJOSOl
6.916
8.89
17
14 8.1
322
5 55 9.59
55 5.71
88 18 16.3
12 16.0
8.0398
6.913
8.88
18
14 3.9
323
5 54 53.64
54 49.68
88 12 15.1
12 14.8
8.0490
6.909
8.87
19
13 59.7
324
5 54 37.35
54 33.31
22 18 13.9
12 13.6
8.0579
6.906
8.85
SO
13 55.5
325
5 54 20.73
54 16.61
88 18 18.7
12 124
8X)664
6.903
8.83
SI
13 51.3
326
5 54 3.82
53 59.62
88 18 11.6
12 11.3
8.0744
6.903
8.81
SS
13 47.1
327
5 53 46.60
53 42.34
88 18 10.5
12 10.2
8.0818
6.903
8.79
S3
13 42.8
328
5 53 89.09
53 84.77
88 18 9.3
18 9.0
8.0887
6.903
8.78
S4
13 38.6
329
5 53 11.29
53 6.91
22 12 8.2
13 7.9
8D953
6.905
8.76
S5
13 34.4
330
5 52 53.22
52 48.77
22 t2 7.1
18 6.8
8.1017
6.907
8.75
26
13 30.1
331
5 52 34.89
52 30.37
22 12 6.0
18 5.7
8.1077
6.909
8.74
27
13 25.9
332
5 52 16.31
52 11.73
22 12 4.9
IS 4.6
8.1137
6.912
8.72
28
13 21.6
333
5 51 5747
51 52.84
22 12 3.7
18 34
8.1193
6.915
2.70
29
13 174
334
5 51 3840
51 33.72
22 12 2.6
13 8.3
8.1845
6.918
2.67
90
13 13.1
335
5 51 19.11
51 14.38
88 18 1.3
18 1.8
8.1294
6.921
263
Dec 1
13 8.9
336
5 50 59.60
50 54.81
88 18 0.2
11 59.9
8.1342
6.927
2.58
2
13 4.6
337
5 50 39.88
50 35.05
22 11 59.0
1158.7
8.1386
6.937
2.53
3
13 0.4
338
5 50 19.97
50 15.10
22 11 57.7
11574
8.1428
6.948
248
4
12 56.0
339
5 49 59.87
49 54.96
22 11564
1156.1
8.1467
6.958
8.44
5
12 51.7
340
5 49 39.60
49 34.65
22 11 55.1
1154.8
8.1503
6.972
840
6
12 47.5
341
5 49 19.16
49 14.18
22 1153.7
11534
8.1534
6.987
8.36
7
12 432
342
5 48 58.58
48 53.57
22 11 52.2
1151.9
8.1565
7.003
8.38
8
12 38.9
343
5 48 37.86
48 32.83
22 11 50.7
11504
8.1595
7.018
3.88
9
12 34.7
344
5 48 17.01
48 11.96
28 11 49.2
1148.9
8.1620
7.032
8.83
10
12 304
345
5 47 56.04
47 50.97
22 1147.6
1147^
8.1641
7.046
8.13
11
12 26.1
346
5 47 34.97
47 29.88
22 11 46.0
1145.6
8.1661
7.059
8.03
12
12 21.8
347
5 47 13.82
47 8.72
22 1144.3
1143.9
8.1676
7.069
1.98
13
12 17.5
348
5 46 52.61
46 47.50
22 11 42.5
1148.1
8.1688
7.079
1.80
14
12 13.3
349
5 46 31.34
46 26.22
22 11 40.8
11404
8.1700
7xm
-1.68
15
12 9.0
350
5 46 10.01
46 4.88
22 11 39.0
1138.6
8.1710
7.096
16
12 4.7
351
5 45 48.64
45 43.51
22 1137.2
1136.8
8.1716
7i099
17
12 0.4
352
5 45 27.25
45 22.12
22 11354
11 35.0
8.1718
7.104
18
U 56.1
353
5 45 5.87
45 0.75
22 1133.6
1133.8
8.1715
7.106
19
11 51.8
354
5 44 44JK)
44 39.39
22 1131.7
1131.3
8.1716
7J099
+1.68
20
1147.5
355
5 44 23.12
44 18.02
22 1130X>
11 89.6
8.1715
7.099
1.88
21
1143.2
356
5 44 1.76
43 56.67
22 11 28.1
1187.7
8.1707
7.099
1.96
22
11 38.9
357
5 43 4045
43 35.38
22 11 26.3
11 85.9
8.1698
7.097
8.10
23
1134.6
358
5 43 19.20
43 14.15
22 11 24.5
1134.1
8.1684
7.097
880
24
11303
359
5 42 58.01
42 52.98
22 11 22.7
1188.3
8.1670
7.095
8.30
25
1126.0
360
5 42 36.89
42 31.88
22 1121.0
11 80.6
8.1655
7.085
8.35
26
U 21.8
361
5 42 15.85
42 10.86
22 11 19.2
11 18.8
8.1636
7.076
841
27
11 17.5
362
5 41 54.91
41 49.96
22 11 17.6
11 17.8
8.1615
7.067
846
28
11 13.2
363
5 41 34.08
41 29.17
22 11 15.9
11 15.5
8.1591
7.057
849
29
11 9.0
364
5 41 13.37
41 8.50
22 11 143
1113.9
8.1563
1J047
8.53
30
11 4.7
365
5 40 52.80
40 47.97
22 11 12.7
11 18.3
8.1523
7.039
8.55
31
11 04
366
5 40 32.37
40 27.58
4.22 11 11.2
11 10.8
-8.1483
-7.032
+8.57
'1
43
338
URANUS, 1855.
MaanSoltrllimor
MtrkUuTnnslu
suu.
Appftrant Right Atcaiuioo.
Apparent DecUaation.
Loff. of Motion In
ft Si<torealM inula.
LoffofPftcior
forS&condDiff'e.
AtSMLOh.
At
Tnutfiu
AtSdOh.
At
TruwH.
InR.A.
In Dec.
InRA.
In Dec
d
b. m.
h. in. •.
m. a.
O 1 II
1 «
Jm. 0
8 1.6
0
2 42 5.35
42 4.89
N.15 21 233
2122.0
74543
8.070
+ 238
+ 338
1
7 67.6
1
2 42 1.36
42 0.92
15 21 7J0
21 6.2
74327
8.050
2.68
338
2
7 53.6
2
24157.57
41 57.15
15 20 513
20 493
74098
8.025
2.68
338
8
7 49.6
3
2 4153.97
415337
15 20 363
20 34.9
73857
7.996
2.68
338
4
7 45.6
4
2 41 50.58
4150.21
15 20 223
20 21.1
73601
7.962
2.68
338
6
7 41.6
5
2 41 47.38
41 47.03
15 20 93
20 8.2
73330
7.940
238
338
6
7 87.7
6
2 41 44.39
4144.06
15 19 573
19 56.2
73040
7.908
2.68
338
7
7 38.7
7
2 4141.59
4141.30
15 19 463
19 46.1
73718
7373
2.68
338
8
7 29.7
8
2 41 39.01
41 38.73
15 19 36.0
19 343
7.2378
7.835
2.68
338
9
7 25.7
9
2 41 36.63
41 36.38
15 19 263
19 253
73024
7.791
2.68
338
10
7 21.7
10
2 41 34.44
41 34.21
15 19 18.1
1917.2
7.1627
7.756
238
338
11
7 17.7
11
2 41 32.45
41 32.24
15 19 104
19 93
7.1191
7.696
2.68
338
12
7 13.8
12
2 41 30.66
41 30.48
15 19 3.7
19 3.0
7.0705
7.641
2.68
338
13
7 9.8
13
2 4129.08
41 28.92
15 18 57.9
18 573
7.0148
7.558
239
338
14
7 5.9
14
2 41 27.69
41 2736
15 18 53.1
18 623
63532
7475
239
338
15
7 1.9
15
2 4126.50
41 2639
15 18 493
18 48.9
6.8790
7367
2.69
338
16
6 58X)
16
2 41 25.52
412543
15 18 463
18 463
6.7920
7322
2.69
338
17
6 54J0
17
2 41 24.73
41 24.67
15 18 443
18 443
6.6814
6.899
239
338
18
6 50.1
18
2 41 24.14
41 24.10
15 18 43.7
18 43.7
63318
6.440
2.70
338
19
6 46.1
19
2 4123.76
41 23.75
15 18 433
18 433
63040
6.620
2.70
338
20
6 42.2
20
2 4123^
412338
15 18 44.9
18 45.1
5.7960
7332
2.70
338
21
6 38.3
21
2 4123.59
41 23.62
16 18 46.9
18 47.2
5.9210
7.222
2.70
338
22
684.4
22
2 4123.82
41 23.87
15 18 493
18 50.2
6.2741
7380
2.70
338
23
6 30.5
23
2 4124.26
412433
15 18 53.7
18 543
63820
7475
2.70
337
24
6 26.6
24
2 41 24.93
4125X)3
15 18 583
18 59.1
6.7281
7370
2.70
337
25
6 22.6
25
2 4125.80
41 25.92
15 19 43
19 5.0
6.8328
7.634
2.70
337
26
6 18.7
26
2 4126.88
4127X)2
15 19 11X)
19 113
63181
7.702
2.70
337
27
6 14.8
27
2 4128.17
412834
16 19 18.7
19 193
63877
7.750
2.70
337
28
6 10.9
28
2 41 29.68
412937
16 19 273
19 283
7.0484
7.803
2.69
336
29
6 7J0
29
2 4131.39
41 31.60
15 19 36.9
19 38.0
7.1017
7.844
2.69
336
80
6 3.1
80
2 4183.31
413334
15 19 474
19 483
7.1470
7379
2.69
336
81
5 59.2
31
2 4135.44
41 35.69
16 19 583
20 0.1
7.1893
7319
2.69
336
r^ 1
5 55.3
32
2 41 37.77
4138XM
15 2011.2
20123
73290
7.949
2.69
335
2
5 51.4
33
2 41 40.31
41 4031
15 20 243
20 263
73632
7383
2.68
335
8
5 47.5
34
2 4143X>5
414337
15 20 383
20 404
73964
8.011
2.68
335
4
5 43.7
35
2 41 46/M)
414634
15 20 54.0
20 55.7
73259
8335
238
334
5
5 89.8
86
2 41 49.15
41 4932
15 21 10.1
21 123
73535
8.063
238
334
6
5 35.9
37
2 41 52.50
415239
15 21 27.2
2129.2
73794
8.091
2.68
333
7
5 82.0
88
2 4156.05
41 5647
15 21 45.2
21473
7.4039
8.110
237
333
8
5 28.2
39
2 4159.81
42 0.25
15 22 4.1
22 63
74282
8.131
237
332
9
5 24.3
40
2 42 8.78
42 4.24
15 22 23.9
22 263
74512
8.150
2.67
332
10
5 20.4
41
2 42 7.95
42 8.43
15 22 44.7
22 47.1
74720
8.169
237
332
11
5 16.6
42
2 42 12.31
42 12.81
15 23 64
23 83
74909
8.188
2.67
331
12
5 12.7
43
2 4216.87
42 1739
15 23 29.0
23 313
7.5098
8309
2.66
331 ,
13
5 8.9
44
2 42 21.62
42 22.17
15 23 62.4
23 55.1
73273
8310
2.66
330l
14
5 5.0
45
2 42 2636
42 27.13
15 24 16.7
24 193
73440
8324
2.66
330 1
15
5 1.2
46
2 42 31.68
42 32.27
15 24 413
24 44.7
73601
8348
2.66
330 '
16
4 57.3
47
2 42 37/M)
42 37.62
15 26 7.7
25 10.7
73756
8362
2.66
339 1
17
4 53.5
48
2 42 4231
42 43.15
16 25 344
25 373
73906
8376
2.65
339
18
4 494
49
2 42 48.21
42 4837
15 26 23
26 53
7.6050, 8390
2.65
338
19
4 45.8
50
2 42 54.10
42 54.78
15 26 304
26 33.7
7.61 88 i 8303
2.65
338
20
4 42.0
51
2 43 0.18
43 038
15 26 59.7
27 3.1
7.6319
8315
2.65
3.27
21
4 38.2
52
243 6.44
43 7.16
15 27 293
27 333
7.6444
8327
2.64
337
22
4 34.3
53
2 43 12.87
43 1331
15 28 0.7
28 43
7.6562
8339
2.64
336
28
4 30.5
54
2 43 1949
43 20.25
15 28 323
28 363
7.6683
8350
2.64
336
24
4 26.7
55
243 86.29
43 27.08
15 29 5.1
29 8.9
7.6802
8360
2.63
335
25
4 22.9
56
2 43 33.26
43 34.07
15 29 383
29 423
7.6908
8371
2.63
334'
26
4 19.1
57
2 43 4041
43 41.24
16 30 12.7
30 163
7.7016' 8381
2.62
334
27
4 15^
58
2 43 47.74
43 4839
15 30 47.7
30 51.7
7.7120
8391
2.62
333
28
4 IM
59
2 43 55.24
43 56.11
15 31 233
31 273
7.7224
8401
2.61
333 1
Mar. 1
4 7.6
60
2 44 2.93
44 3.82
N15 32 0.1
32 43
7.7326 1 8410
+ 231
•1- 332 1
URANUS, 1855.
339
For Waahi
ngton Sklareal Nooo and Meridian Tranalt.
Mean Solar Time of
Side-
real
Apparant Right Aacaiuioa.
Apparent Declination.
Log. of Motion in
a Sidereal Minute.
Log. of Factor
For Second DiflTa.
Meridua TnuMiu
Date.
AtSkLOh.
At
Transit.
At Sid. Oh.
At
Transit
InR.A.
In Dec.
In R.A.
In Dec.
d.
h. m.
h. m. a.
m. a.
O 1 N
1 II
Mar. S
4 3.8
61
2 44 10.80
44 11.71
N.15 32 37^4
32 41.7
7.7420
8.418
+ 2.60
+ 3.21
3
4 0.0
62
2 44 18.82
44 19.75
15 33 15.4
33 19.8
7.7506
8.426
2.60
3.21
4
3 56.2
63
2 44 27X)1
44 27.96
15 33 54.1
33 58.6
7.7581
8.433
2.59
3.20
5
3 52.4
64
2 44 35.36
44 36.33
15 34 33.5
34 38.0
7.7674
8.441
2.59
3J20
6
3 48.6
65
2 44 43.86
44 44.85
15 35 13.6
35 18.2
7.7756
8.448
2.58
3.19
7
3 44.8
66
2 44 52.52
44 53.52
15 35 54.4
35 59.1
7.7836
8.455
2.58
3.18
8
3 41.1
67
2 45 1.33
45 2.35
15 36 35.8
36 40.6
7.7910
8.462
2.58
3.18
9
3 37.3
68
2 45 10.30
45 11.34
15 37 17.9
37 22.7
7.7985
8.470
2.57
3.17
10
3 33.5
69
2 45 19.42
45 20.48
15 38 0.7
38 5.6
7.8059
8.477
2.57
3.17
11
3 29.7
70
2 45 28.71
45 29.79
15 38 44.2
38 49.2
7.8133
8.483
2.56
3.16
12
3 25.9
71
2 45 38.16
45 39.26
15 39 28.3
39 33.4
7.8207
8488
2J56
3.15
13
3 22.1
72
2 45 47.76
45 48.88
15 40 13.0
40 18.2
7.8277
8.493
2.55
3.14
14
3 18.4
73
2 45 57.52
45 58.65
15 40 58.3
40 63.5
7.8342
8.499
2.55
3.14
15
3 14.6
74
2 46 7.41
46 8.56
15 41 44.1
41 49.4
7.8403
8.505
2.54
3.13
16
3 10.9
75
2 46 17.44
46 18.61
15 42 30.5
42 35.9
7.8459
8.511
2.54
3.12
17
3 7.1
76
2 46 27.60
46 28.78
15 43 17.5
43 22.9
7.8513
8.517
2.54
3.11
18
3 3.3
77
2 46 37.87
46 39.07
15 44 5.1
44 10.6
7.8567
8.522
2.^3
2.52
3.10
19
2 59.6
78
2 46 48.28
46 49.49
15 44 53.3
44 58.8
7.8619
8.528
3.10
20
2 55.8
79
2 46 58.81
47 0.04
15 45 42.1
45 47.7
7.8671
8.533
2.51
3.09
21
2 52.1
80
2 47 9.47
47 10.72
15 46 31.4
46 37.1
7.8721
8.538
2.50
3.08
22
2 48.4
81
2 47 20.25
47 21.52
15 47 21.3
47 27.1
7.8770
8.542
249
3.07
23
2 44.6
82
2 47 31.15
47 32.43
15 48 11.7
48 17.5
7.8819
8.546
2.48
3.06
24
2 40.9
83
2 47 42.18
47 43.48
15 49 2.5
49 8.4
7.8868
8.550
2.48
3.06
25
2 37.1
84
2 47 53.34
47 54.65
15 49 53.8
49 59.8
7.8916
8.554
2.47
3.05
26
2 33.4
85
2 48 4.61
48 5.94
15 50 45.5
50 51.5
7.8962
8.557
2.46
3.04
27
2 29.6
86
2 48 16.01
48 17.35
15 51 37.6
51 43.7
7.9008
8.560
2.45
3.03
28
2 25.9
87
2 48 27.52
48 28.87
15 52 30.1
52 36.3
7.9052
8.563
2.44
3.02
29
2 22.2
88
2 48 39.15
48 40.52
15 53 23.0
53 29.2
7.9094
8.566
2.43
3.02
30
2 18.4
89
2 48 50.88
48 52.26
15 54 16.2
54 22.5
7.9136
8.669
2.41
3.01
31
2 14 7
90
2 49 2.74
49 4.14
15 55 9.8
55 16.1
7.9180
8.573
2.40
3.00
AprU 1
2 ll.O
91
2 49 14.70
49 16.11
15 56 3.9
56 10.3
7.9215
8.577
2.39
2.00
2
2 7.3
92
2 49 26.77
49 28.19
15 56 58.4
57 4.8
7.9256
8.580
2.38
2.99
3
2 3.5
93
2 49 38.92
49 40.35
15 57 53.3
57 59.8
7.9283
8.583
2.37
2.98
4
1 59.8
94
2 49 51.17
49 52.62
15 58 48.5
58 55.0
7.9312
8.586
2.36
2.95
5
1 56.1
95
2 50 3.49
50 4.95
15 59 44.1
59 50.7
7.9340
8.588
2.34
2.92
6
1 52.3
96
2 50 15.90
50 17.37
16 00 40.0
00 46.6
7.9368
8.590
2.33
2.89
7
1 48.6
97
2 50 28.39
> 50 29.88
16 0136.2
01 42.9
7.9396
8.593
2.31
2.85
8
1 44.9
98
2 50 40.95
50 42.45
16 02 32.7
02 39.4
7.9423
8.595
2.30
2.82
9
1 41.1
99
2 50 53.59
50 55.10
16 03 29.5
03 36U3
7.9450
8.697
2.28
2.79
10
1 37.4
100
2 51 6.31
51 7.83
16 04 26.6
04 33.4
7.9476
8.599
2.27
2.75
11
1 33.7
101
2 51 19.11
51 20.64
16 05 23.9
05 30.7
7.9502
8.601
2.25
2.72
12
1 30.0
102
2 5131.98
51 33.52
16 06 21 JS
06 28.4
7.9527
8.603
2.23
+ 2.68
13
1 26.3
103
2 51 44.93
51 46.48
16 07 19.3
07 26.2
7.9552
8.605
2.21
14
1 22.6
104
2 51 57.94
51 59.51
16 08 17.4
08 24U3
7.9575
8.606
2.19
15
1 18.8
105
2 52 11.03
52 12.60
16 09 15.7
09 22.7
7.9596
8.608
2.16
16
1 15.1
106
2 52 24.18
52 25.75
16 10 14.2
10 21.2
7.9613
8.609
2.14
17
1 11.4
107
2 52 37.40
52 38.98
16 11 12.8
11 19.8
7.9635
8.610
2.11
18
1 7.7
108
2 52 50.68
52 52.26
16 12 11.6
12 18.7
7.9655
8.612
2.08
19
1 4.0
109
2 53 3.99
53 5.59
16 13 10.6
13 17.7
7.9674
8.613
2.05
20
1 0.3
110
2 53 17.38
53 18.99
16 14 9.8
14 16.9
7.9693
8.614
2.02
21
0 56.6
111
2 53 30.83
53 32.45
16 15 9.0
15 16.1
7.9709
8.615
1.99
22
0 52.9
112
2 53 44.33
53 45.96
16 16 8.3
16 15.4
7.9725
8.615
1.96
23
0 49.2, 113
2 53 57.87
53 59.50
16 17 7.7
17 14.9
7.9737
8.616
1.93
24
0 45.41 114
2 54 11.44
54 13.06
16 18 7.2
18 14.4
7.9747
8.617
1.90
25
0 41.7|115
2 54 25.03
54 26.68
16 19 6.8
19 14.0
7.9757
8.618
1.86
26
0 38.o!ll6
2 54 38.66
54 40.31
16 20 6.5
20 13.7
7.9767
8.619
1.83
27
0 34.3
117
2 54 52.32
54 53.98
16 21 6.3
21 13.6
7.9775
8.619
1.79
28
0 30.6
118
2 55 601
55 07.67
16 22 6.2
22 13.5
7.9782
8.620
1.75
29
0 26.9
119
2 55 19.72
55 21.39
16 23 6.1
23 13.4
7.9789
8.620
1.71
30
0 23.2
120
2 55 3 ).45
55 35.13
16 24 6.1
24 13.4
7.9797
8.620
1.66
May 1
0 19.5
121
2 55 47.21
55 48.89
N16 25 6.1
25 13.4
7.9805
8.620
+ 1.61
340
URANUS, 1855.
For Waflhingtnn Sidereal Noon and
Meridian T
Vanait.
MaaoSoUrTlroeof
Maridiaa Tnnsiu
Sid«.
real
Date.
Apparent Right Aacemlon.
Appuneot DediDatioa.
Log. of Motion in
a Sidereal Minute.
Log. of Factor 11
for Second DiflTr ||
At Sid, Oh.
At
Transit.
At Sid. Oh.
At
Transit.
InRA.
In Dec.
In R.A.
In Dec
d.
h. in.
h. m. a.
m. a.
O 1 M
f n
Mar 2
0 15.8
122
2 56 0.99
56 2.68
N.16 26 6.1
26 13.4
7.9812
8.620
+ 1.56
3
0 12.0; 123
2 56 14.75
56 16.48
16 27 6.1
27 134
7.9818
8.620
4
0 8.4| 124
2 56 28.61
56 30.32
16 28 6.0
28 13.3
7.9823
8.619
5
0 4.7,125
2 56 42.44
56 44.14
16 29 5.9
29 13.2
7.9827
8.619
6
0 1.0 126
2 56 56.27
56 57.98
16 30 5.7
30 13X)
7.9830
8.618
6
23 57.3 127
2 57 10.13
57 11.83
16 31 5.4
31 12.7
7.9832
8.618
7
23 53.6 128
2 57 23.99
57 25.69
16 32 5.2
32 12.3
7,9834
8.617
8
23 49.9 129
2 57 37.85
57 39.56
16 33 4.3
83 11.8
7.9834
8.616
9
23 46.2, 130
2 57 51.71
57 53.42
16 34 3.9
34 11.2
7.9834
8.616
10
23 42.5 131
2 58 5.57
58 07.28
16 35 3.2
35 10.5
7.9832
8.615
11
23 38.8 132
2 58 19.42
58 21.13
16 36 2.4
36 9.7
7.9829
8.614
- 1.56
12
23 35.1, 133
2 58 33.26
58 34.97
16 37 1.5
37 8.8
7.9824
8.613
1.61
Id
23 31.4, 134
2 58 47.08
58 48.79
16 38 0.5
38 7.7
7.9818
8.612
1.66
14
23 27.7 1 135
2 59 0.88
59 2.60
16 38 59.3
39 6.5
7.9812
8.611
I.7I
15
23 24.0 136
2 59 14.67
59 16.38
16 39 58.0
40 6.2
7.9805
8.610
1.76
16
23 20U} 137
2 59 28.42
59 30.14
16 40 56.5
41 3.7
7.97«7
8.609
1.80
17
23 16.6' 138
2 59 42.17
59 43.88
16 41 54.9
42 2.1
7.9790
8.608
1.84
18
23 12.9, 139
2 59 55.88
69 57.59
16 42 53.1
43 0.3
7.9783
8.606
1.88
19
23 9j2. 140
3 0 9.57
0 11.28
16 43 51.1
43 58.3
7.9776
8.605
1.91
20
23 5.5 141
3 0 23JSt4
0 24.95
16 44 49.0
44 56.2
7.9767
8.603
1.94
21
23 1.8 142
a 0 36.88
0 38.58
16 45 46.6
45 53.7
7.9757
8.601
1.96
- 2.68
22
22 58.1
143
3 0 50.48
0 52.18
16 46 44.0
46 51.1
7.9744
8.599
1.99
2,70 !
23
22 54.4
144
3 1 4.05
1 3.75
16 47 41.1
47 48.2
7.9729
8.598
2.01
2,72
24
22 50.7
145
3 1 17.56
1 18.26
16 48 37.9
48 45.0
7.9713
8.595
2.04
2.74
25
22 47.0 146
3 131.02
133.70
16 49 34.6
49 41.5
7.9697
8.593
2X)6
2.76
26
22 43^ 147
3 1 44.43
I 46.12
16 50 30.7
50 37.7
7.9681
8.591
2m
2,78
27
22 39.5 1 148
3 1 57.79
1 59.48
16 51 26.7
5133.7
7.9665
8Ji89
2.10
2.80
28
22 35.8 149
3 2 11.11
2 12.78
16 52 22.4
52 29.4
7.9649
8.586
2.12
2.82
29
22 32.1 i 150
3 2 24.37
2 26.05
16 53 17.7
53 24.7
7.9632
8.583
214
2.84
30 22 28.4; 151 1
3 2 37.57
2 39.24
16 54 12.7
54 19.7
7.9612
8.581
2.16
2.86
0
22 24.7! 152
3 2 50.71
2 52.38
16 55 7.4
55 14.3
7.9592
8.579
2.18
2.88
Jane I
22 21.0! 153
3 3 3.80
3 5.46
16 56 1.8
56 8.7
7.9572
8.576
2.20
2.90 ,
2
22 17.2' 154
3 3 16.82
3 18.48
16 56 55.8
57 2.7
7.9548
8.573
2.22
2.92 '
3
22 13.5' 155
3 3 29.77
3 31.42
16 57 49 5
57 56.3
7.9524
8.571
2.24
2.94
4
22 9.8
156
3 3 42.66
3 44.30
16 58 42.9
58 49.7
7.9498
8.568
2.26
2^6
5
22 6.1
157
3 3 55.46
3 57.10
16 59 35.9
59 42.6
7.9474
8.565
2.28
2.98
6
22 2.3
158
3 4 8.19
4 9.82
17 0 28.5
00 35»2
7.9451
8.562
2.30
8iX)
7
21 58.6
159
3 4 20.86
4 22.48
17 1 20.8
01274
7.9430
8.559
2.32
8.01 '
8
21 54.9 160 1
3 4 33.45
4 35.06
17 2 12.7
02 19.3
7.9406
8.556
IJM
am
9
21 51.2
161
8 4 45.93
4 47.57
17 3 4.3
03 10.9
7.9378
8.552
2.35
ajoa
10
21 47Ji
162
3 4 58.40
4 59.99
17 3 554
04 1.9
7.9346
8.548
2.37
8.04
11
21 43.7 163
3 5 10.75
5 12.33
17 4 46.1
04 52.6
7.9311
8.544
2.38
8.05
12
21 40.0 164
3 5 22.99
5 24.56
17 6 36.3
05 42,7
7.9276
8.540
2.39
8.06
13
21 36.31 165
3 5 35.13
5 36.69
17 6 26.0
06 324
7.9240
8.536
2.39
am
14
21 32.5; 166
3 5 47.18
5 48.72
17 7 15.2
07 21.5
7.9205
8.532
240
ajDi (
15
21 28.8 167
3 5 59.12
6 0.65
17 8 4.0
08 10.3
7.9170
8.528
240
ajos
16
21 25.1 168
3 6 10.98
6 12.50
17 8 52.3
08 58.5
7.9133
8.523
241
am
17
21 21.3: 169
3 6 22.73
6 24.24
17 9 40.1
09 46.3
7.9094
8519
241
ajo9 1
18
21 17.6 170
3 6 34.38
6 35.88
17 10 27.4
10 33.5
7.9053. 8.514
2.42
am '
19
21 13.9 171
3 6 45.91
6 47.40
17 11 14.1
1120.2
7.9012
8.509
2.48
8.10
20
21 10.1 172
3 6 57.33
6 58.81
17 12 0.3
12 6J}
7.8970
8.504
2.44
8.10
t 21
21 6.4, 173
3 7 8.65
7 10.11
17 12 46.0
12 51.9
7.8928
8499
245
8.11
22
21 2.6 174
3 7 19.85
7 21.30
17 13 31.2
13 37.0
7.8886
6495
2.46
8.12
23
20 58.9 175
3 7 30.94
7 32.38
17 14 15.9
14 21.7
7.8841
8490
2.46
8.12
24
20 55.1 176
3 7 41.92
7 43.34
17 15 0.1
15 53
7.8794
8485
2.47
8.13
25
20 51.4 177
3 7 52.77
7 54.18
17 15 43.8
15 49.5
7.8747
8.480
2,47
8.14
26
20 47.6 178
3 8 3.51
8 4.90
17 16 27.1
16 32.7
7.8700' 8473
2.48
8.15
27
20 43.9 179
3 8 14.13
8 15.50
17 17 9.8
17 154
7.8652' 8.469
2,48
8.16
28
20 40.1 180
3 8 24.63
8 26.(M)
17 17 52.0
17 57.5
7.8602 8.465
249
8.16 1
29
20 36J) 181
3 8 3.V02
8 36J36
17 18 33.7
18 39.2
7.8548 8458
2.49
8.17
30
20 37.6 182
3 8 45.26
8 46.59
Nl7 19 14.8
[ 19 20.2
7.8489 8453
- 230
- 3.18
URANUS, 1855.
341
For Washln^too Siderwl Noon and Meridian Trandt
MeanSoUrTlmoof
MeridUa Traotlu
Side-
real
Apparent Right AKeoaioa.
Apparaot Declination.
Log. of Motion in
a Sidereal Miiiuie
Loff. of Factor 1
For Second DiflTa
At
Tranait
Dal«.
At Sid. Oh.
At Sid. Oh.
At
Tmnsii.
InR.A.
In Dec.
In R A.
In Dec.
d.
h. in.
h. m a.
m. a.
O 1 N
1 N
July 1
20 28.8
183
3 8 55^7
8 56.68
N 17 19 55.3
20 0.6
7.8429
8446
- 2.50
- 3.19
2
20 25.0
184
3 9 5.33
9 6.62
17 20 35.1
20 40.4
7.8368
8438
2.51
3.19
3
20 21.3
185
3 9 15.07
9 16.44
17 21 14.3
21 19.5
7.8305
8433
2.52
3.19
4
20 17.5
186
3 9 24.83
9 26.09
17 21 52.8
21 57.9
7.8239
8424
2.52
3.19
5
20 13.7
187
3 9 34^1
9 35^1
17 22 30.7
22 35.7
7.8172
8416
2.53
3.20
6
20 10.0
188
3 9 43.75
9 44.98
17 23 7.9
23 12.8
7.8105
8.409
2.53
3.20
7
20 6.2
189
3 9 53.00
9 54.21
17 23 44.5
23 49.3
7.8037
8.401
2.54
3.20
8
20 2.4
190
3 10 2.09
10 3.28
17 24 20.4
24 25.1
7.7968
8.393
2.54
3.20
9
19 58.6
191
SIOUJOA
10 12.21
17 24 55.6
24 602
7.7898
8.385
2.55
3.20
10
19 54.8
192
3 10 19.84
10 20.99
17 25 30.2
25 34.8
7.7824
8.377
2.55
3.21
11
19 51.0
193
3 10 28.50
10 29.63
17 26 4.2
26 8.7
7.7746
8.368
2.56
3.21
12
19 47.2
194
3 10 36.99
10 38.10
17 26 37 J5
26 41.9
7.7665
8.360
2.56
3.21
13
19 43.5
195
3 10 45.32
10 46.41
17 27 10.2
27 14.6
7.7581
8.352
2.57
3.21
14
19 39.7
196
3 10 53.50
10 54JS7
17 27 423
27 46.6
7.7494
8.343
2.57
3.21
15
19 35.9
197
3 11 1.51
11 2.56
17 28 13.8
28 18.0
7.7408
8.333
2.58
3.21
16
19 32.1
198
311 9.36
11 10.39
17 28 44.6
28 48.7
7.7318
8.326
2.58
3.22
17
19 28.3
199
3 11 17.05
11 18.06
17 29 14.8
29 18.8
7.7224
8.317
2.59
3.22
18
19 24.5
200
3 11 24.56
1125.55
17 29 44.3
29 48.2
7.7126
8.300
2.59
3.22
19
19 20.7
201
3 1131.90
1132.87
17 30 13.2
30 17.0
7.7025
8.296
2.60
3.22
20
19 16.9
202
3 1139.07
1140.02
17 30 41.4
30 45.1
7.6922
8.285
2.60
3.22
21
19 13.0
203
3 1146.07
11 46.99
17 81 8.8
31 12.4
7.6817
8.273
2.61
3.23
22
19 9.2
204
3 1152.91
11 53.81
17 31 35.5
31 39.0
7.6706
8.261
2.61
3.23
23
19 5.4
205
3 11 59.56
12 043
17 32 1.4
32 4.8
7.6592
8.248
2.62
3.23
24
19 1.5
206
3 12 6.04
12 6.89
17 32 26.5
32 29.8
7.6475
8.235
2.62
3.23
25
18 57.7
207
3 12 12.34
12 13.17
17 32 50.9
32 54.1
7.6354
8.222
2.63
3.23
26
18 53.9
208
3 12 18.47
12 19.27
17 33 14.6
33 17.7
7.6230
8.208
2.63
3.24
27
18 50.0
209
3 12 24.42
12 25 20
17 33 37.5
33 40.5
7.6102
8.194
2.63
3.24
28
18 46.2
210
3 12 30.20
12 30.96
17 33 59.7
33 2.6
7.5972
8.180
2.64
3.24
29
18 42.4
211
3 12 35.81
12 36.55
1734 21.1
34 23.9
7.5832
8.165
2.64
3.24
30
18 38.5
212
3 12 41.23
12 41.94
17 34 41.8
34 44.5
7.5683
8.150
2.64
3J24
Si
18 34.7
213
3 12 46.46
12 47.15
17 35 1.8
35 4.4
7.5526
8.134
2.64
3.25
Aug. 1
18 30.8
214
3 12 51.51
12 52.17
17 35 21.0
35 23.5
7.5362
8.118
2.65
3.25
2
18 27 0
215
3 12 56.36
12 57.00
17 35 39 5
35 41.9
7.5183
8.101
2.65
8.25
3
18 23.1
216
3 13 1.06
13 1.62
17 35 57.3
35 59.6
74996
8.083
2.65
3.25
4
18 19.3
217
3 13 5.46
13 6.05
17 36 14.3
36 16.5
7.4811
8.063
2.65
3.25
5
18 15.4
218
3 13 9.72
18 10.28
17 36 30.6
36 32.7
74607
8.043
2.66
3.26
6
18 11.6
219
3 13 13.78
13 14.32
17 36 46.1
36 48.1
74393
8.021
2.66
• 3.26
7
18 7.7
220
3 13 17.64
13 18.15
17 37 0.9
37 2.8
74168
7.998
2.66
3.26
8
18 3.8
221
3 13 21.30
13 21.78
17 37 14.9
37 16.7
7.3943
7.975
2.66
3.26
9
17 59.9
222
3 13 24.77
13 25.23
17 37 28.1
37 29.8
7JJ705
7.952
2.66
3.26
10
17 56.0
223
3 13 28.05
13 28.48
17 87 40.5
37 42.1
7.3140
7.926
2.67
8.27
tl
17 52.1
224
3 13 31.13
13 31.53
17 37 52.2
37 53.7
7.2873
7.896
2.67
3.27
12
17 48.3
225
3 13 34.02
13 34.40
17 38 3.1
38 4.5
7.2888
7.863
2.67
3.27
13
17 44.4
226
3 13 36.72
13 37.07
17 38 13.2
38 14.5
7.2566
7.829
2.67
3.27
14
17 40.5
227
3 13 39.21
13 39M
17 38 22.5
38 23.7
7J2236
7.790
2.67
3.27
15
17 36.6
228
3 13 41.52
13 41.82
17 38 30.9
38 32.0
7.1860
7.747
2.68
3.28
16
17 32.7
229
3 13 43.63
13 43.90
17 38 38.5
38 39.5
7.1448
7.702
2.68
3.28
17
17 28.8
230
3 13 45..54
13 45.78
17 38 45.4
38 46.3
7.0993
7.655
2.68
3.28
1 18
17 24.9
231
3 13 47.25
13 47.46
17 38 51.5
38 52.3
7.0486
7.598
2.68
3.28
19
17 21.0
232
3 13 48.76
13 48.94
17 38 56.8
38 57.5
6.9918
7.532
2.68
3.28
20
17 17.1
233
3 13 50.06
13 50.22
17 39 1.3
39 1.9
6.9218
7.460
2.68
3.28
21
17 13.2
234
3 13 51.16
13 51.29
17 39 5.1
39 5.6
6.8416
7.873
2.68
3.28
22
17 9J3
235
3 13 52.06
13 52.16
17 39 8.1
39 8.5
6.7392
7.257
2.68
8.28
23
17 5.4
236
3 13 52.75
13 52.83
17 39 10.3
39 10.5
6.6050
7.097
2.68
3.28
24
17 1.4
237
3 13 53.23
13 53.28
17 39 11.7
39 11.8
6.4098
6.842
2.68
3.28
25
16 57.5
238
3 13 5349
13 53.52
17 39 12.3
89 12.3
6.0720
6.140
2.68
3.27
26
16 53.6
239
3 13 53.56
13 53.56
17 39 12.1
39 12.0
5.3190
6.620
2.68
3.27
27
16 49.7
240
3 13 53 43
13 53.40
17 39 11.1
39 10.9
6.2033
6.972
2.68
3.27
28
16 45.8
241
3 13 53.10
13 53.04
17 39 9.4
39 9.1
64751
7.064
2.68
8.27
29
16 41.8
242
3 13 52.56
13 52.48
17 39 6.9
39 6.5
6.6478
7.304
2.68
3.27
30
16 37.9 243
3 13 51.81
13 51.70
N.17 39 3.6
39 3.1
6.7659
7410
- 2.68
-8.26
342
URANUS, 1855.
For WMhingtoa Sidermt Nooa and Meridian Transit.
Mew Solar Tlmo of
M^ridUa Tntmii.
Side.
Appareot Right Aacenalon.
Apparent Declination.
Log. of Motion in
a Sidereal Minute.
Log of Factor
for Second Diff'i.
At Sid. Oh.
At
Transit.
At Sid. Oh.
At
Traiiaiu
In R.A.
In Dec.
In RA.
In Dec
d. h. m.
h. 111. s
m. i.
O f H
1 H
Aug. 31 16 83.9
244
3 13 50.87
19 50.74
N.17 38 59.6
38 58.9
6.8586
7490
\.2.68
- 3.86
Sepc 1 16 30.0
245
3 13 49.73
19 49.57
17 38 54.8
38 53.9
6.9350
7.566
2.68
3.86
2 16 26.0
246
3 13 48.38
13 48.19
17 38 48.9
38 48.1
7.0000
7.627
2.68
3.26
3 16 22.1
247
3 13 46.85
13 46cB4
17 38 424
38 41.5
7.0538
7.684
2.68
8.26
4 16 18.1
248
3 13 45.13
13 44.89
17 38 35.1
38 34.1
7.0993
7.728
2.68
3.85
5 16 14.2
249
3 13 43.22
13 42.96
17 38 27.0
38 85.9
7.1405
7.769
2.68
3.25
6 16 10.2
250
3 13 41.13
13 40.84
17 38 18.3
3817.0
7.1801
7.806
8.68
3.25
7 16 6.2 251
3 13 38.85
13 38^3
17 88 8.6
88 7.3
7.2182
7.8S&2
7.840
8,67
3.25
8 16 2.2
252
3 13 36.36
13 96.01
17 37 58.3
37 56.9
7.871
8.67
3.25
9 15 58.2
253
3 13 33.68
19 93.31
17 37 47.2
37 45.7
7.2856
7.900
8.67
9.24
10 15 54.2
254
3 13 30.79
13 30.39
17 37 354
37 33.8
7.3173
7.927
8.67
9.24
11 15 50.3
255
3 13 27.69
13 27.26
17 37 22.8
37 21.1
7.3454
7.953
8.66
9.24
12 15 46.3
256
3 13 24.40
13 23.95
17 37 9.5
37 7.7
74J718
7.978
8.66
9.24
13 15 42J)
257
3 13 20.91
13 20.43
17 36 554
36 53.5
7.3955
8.001
8.66
9.24
14 15 38.3
258
3 13 17.23
13 16.72
17 36 40.6
36 38.6
74191
8.023
8.65
9.83
15 15 34.3
259
8 13 13.35
13 12.82
17 36 25.0
36 28.9
7.4404
8.043
2.65
3.83
16 15 30.3
260
3 13 9.28
13 8.73
17 36 8.7
36 6.5
74607
8062
8.64
9.89
17 15 26.3
261
3 13 5.03
13 446
17 35 51.7
35 494
7.4791
8.080
8.64
9.89
18 15 22.3
262
3 13 0.58
18 59.98
17 35 34.0
35 31.6
74977
8.098
2.64
9.89
19 15 18U3
263
3 12 55.95
18 55.33
17 35 15.6
35 13.1
7.5155
8.114
2.63
9.88
SO 15 14.2
264
3 12 51.13
12 50.48
17 34 56.5
34 53.9
7.5318
8.130
2.63
9.88
21 15 10.2
265
3 12 46.15
12 4.548
17 34 36.7
34 34X>
7.5466
8.146
2.62
9.88
22 15 6.2
266
3 18 41.00
12 40.31
17 34 16.2
34 13.5
7.5601
8.162
8.62
9.88
23 15 2.2
267
3 12 35.69
12 34.97
17 33 55.0
33 52.2
7.5728
8.174
8.61
9.81
24 14 58.1
268
3 12 30.23
12 2949
17 33 33.1
33 30.2
7.5848
8.187
8.61
9.81
25 U 54.1
269
3 12 24.61
12 23.85
17 33 10.6
33 7.6
7.5975
8.200
8.60
9J1
26 U 50>1
270
3 12 18.85
12 18.07
17 32 474
32 44.3
7.6083
8.213
8.60
9.20
27 14 46.1
271
3 12 12.93
12 12.13
17 32 23.5
32 20.3
7.6218
8.225
8.60
9.20
28 14 42.0
272
3 IS 6.83
12 6.01
17 3159.0
31 55.7
7.6314
8J37
8.59
9.19
29 14 38.0
273
3 12 0.58
11 59.74
17 3199.9
3130.5
7.6440
8.248
8.59
9.19
30 U 34.0
274
3 1154.15
1153.29
17 91 8.1
81 4.7
7.6545
8.258
8.58
9.19
Oct 1 14 29.9
275
3 1147.56
1146.68
17 90 41.7
30 38.2
7.6658
8.268
8.58
9.18
2 14 25.9
276
3 1140.79
1189.89
17 90 14.7
30 11.1
7.6767
8.277
8.58
9.18
3 14 21.8
277
3 1133.87
11 82.95
17 29 47.2
29 43.6
7.6867
8.286
8.57
9.17
4 14 17.8
278
3 11 26.78
1125.84
17 29 19.1
29 154
7.6964
8.893
8.57
9.17
5 14 13.8
279
3 11 19.55
11 18.59
17 28 504
28 46.6
7.7055
8.904
8.56
9.16
« 14 9.7
280
3 11 12.15
11 11.17
17 28 21.1
28 17.2
7.7143
8.912
8.55
9.14
7 14 5.6
281
3 11 4.62
11 3.62
17 27 51.3
27 47.3
7.7224
8JI20
8.54
9.12
8 14 1.6
282
3 10 56.94
10 55.93
17 27 81.0
27 llJO
7.7298
8.328
8.53
9.11
9 13 57.5
283
8 10 49.15
10 48.12
17 86 50.2
26 46.1
7.7365
8JJ95
8.51
9.10
10 13 53.5
284
3 10 41.25
10 40.21
17 86 18.8
26 14.6
7.7425
8.942
S.50
9.09
11 13 49.4
285
3 10 33.23
10 32.17
17 25 46.9
25 42.7
7.7485
8.949
849
9X)8
12 13 45.3
286
3 10 25.11
10 24.04
17 25 14.5
25 10J2
7.7544
8.956
848
9.06
13 13 41.2
287
3 10 16.87
10 15.78
17 84 41.6
24 37.2
7.7601
8.363
846
9iM
14 13 37.2
288
3 10 8.52
10 742
17 84 8.8
24 3.8
7.7654
8:169
845
SJOi
15 13 33.1
289
9 10 0.08
9 58.96
17 23 34.3
23 29.8
7.7706
8.375
8.43
9.00
16 IS 29.0
290
9 9 51.54
9 5041
17 22 59.9
22 554
7.7758
8J581
342
8.98
17 13 24.91291
9 9 42.89
9 41.75
17 22 25.1
82 20.5
7.7811
8J)86
2.40
8.96
18 13 20.8 292
9 9 94.14
9 32.97
17 2149.9
21 45.3
7.7863
8.391
SJ)9
8.94 1
19 13 16.7 293
9 9 25.28
9 24.10
17 21 14.3
21 9.6
7.7914
8.395
8.37
S.9l|
SO IS 12.7 294
'9 9 16.92
9 15.13
17 20 384
80 33.7
7.7962
8.399
8.36
8.89 ,
21 13 8.6 295
9 9 7.26
9 6.06
17 20 2.1
19 57.3
7.8006
8403
8.34
8.861
2S 19 4.5 296
9 8 58.11
8 56.90
17 19 25 5
19 20.7
7.8049
8407
SUJ8
S.83
83 13 0^1897
9 8 48.87
8 47.66
17 18 48.6
18 43.7
7.8091
8411
8.30
8.79"
24 18 564J898
9 8 99.55
8 38.33
17 18 114
18 6.5
7.8133
8415
8 88
8.75
25 IS 52.3* 299
9 8 90.14
8 28.91
17 17 33.8
17 28.8
7.8174
8419
8.85
8.71 :
26 12 48.2 300
9 8 20.64
8 19.40
17 16 55.9
16 50.9
7.8211
8.423
8.83
-8.66'
27 IS 44.1:301
9 8 11.07
8 9.82
17 16 17.6
16 12.6
7.8243
8427
820
28 IS 40.0' 302
9 6 1.43
8 0.18
17 15 39.0
15 34.0
7.8268
8.430
2.16
89 IS 35.9 1303
9 7 51.74
7 50.48
17 15 0.2
14 55.1
7.8288
8.432.
^2.12
^2.08
90 12 31.8' 304
9 7 42.01
7 40.75
N.I7I4S1.8
14 16.1
7.8306
8.434*
—
—
_;- —
— — .
— —
—
— —
URANUS, 1855.
343
For Washiogtoo Sidereal Noon and
Meridian T^mnait.
Maw Solar Time of
Meridiaa Truuiu
Side-
real
Data.
Apparent Right Aacenaion.
Ai^arent DecUoatioo.
Log. of Motion in
a Sidereal Minute.
Log. of Factor 1
For Second Diira.|
AtSkLOh.
AtT^ranait.
At Sid. Oh.
AtTranaiL
InR.A. |In Dec.
In R.A.
TnDec
d.
h. m.
h. m. a.
m. a.
0 1 H
1 H
Oct. 81
12 27.8
305
8 7 32.23
7 30.96
N.17 13 42.0
13 36.9
7.8324
8.436
% 2.03
Not. 1
12 23.7
306
3 7 22.43
7 21.16
17 13 2.7
12 57.5
7.8341
8.438
1.97
2
12 19.6
307
3 7 12.59
7 11.31
17 12 23.2
12 18.0
7.8355
8.440
1.90
3
12 15J^
308
3 7 2.72
7 1.44
17 1143.6
11384
7.8365
8.442
1.83
4
12 11.4
309
3 6 52.83
6 51.54
17 11 3.8
10 58.6
7.8375
8.443
1.75
5
12 7.3
310
3 6 42.91
6 41.62
17 10 23.8
10 18.6
7.8385
8.444
71.66
6
12 3JJ
311
3 6 32.96
6 31.67
17 9 43.7
9 38U)
7.8395
8.446
7
11 59.1
312
3 6 22.99
6 21.70
17 9 3.5
8 584
7.8405
8.447
8
11 55X)
313
3 6 13.00
6 11.71
17 8 23.2
818.0
7.8414
8.448
9
11 50.9
314
3 6 3.00
6 1.71
17 7 42.9
7 37.7
7.8420
8.448
10
11 46^
315
3 5 52.99
5 51.70
17 7 2.5
6 57.3
7.8424
8.449
11
11 42.7
316
3 5 42.97
5 41.68
17 6 22.1
6 16.9
7.8425
8.449
12
11 38.6
317
3 5 32.95
5 31.66
17 541.6
5 364
7.8425
8.449
13
11 34Ji
318
3 5 22.94
5 21.65
17 5 1.1
4 55 9
7.8424
8449
U
11 30.4
319
3 5 12.93
5 11.62
17 4 2a7
4 15.5
7.8422
8.449
15
11 26;}
320
3 5 2.92
5 1.63
17 3 40.3
3 35.1
7.8420
8.448
16
11 22.2
321
3 4 52.91
4 51.63
17 3 0.0
2 54.8
7.8310
8.447
17
11 18.1
322
3 4 42.92
4 41.64
17 2 10.8
2 14.6
7.8397
8.446
18
11 14.0
323
3 4 32.97
4 31.70
17 139.7
134.6
7.8383
8.445
19
11 9.9
324
3 4 23.06
4 21.79
17 0 59.7
0 54.6
7.8364
8.444
SO
11 5.8
325
3 4 13.21
4 11.95
17 0 19.9
0 14.8
7.8342
8.442
^ 1.66
21
11 1.7
326
3 4 3.41
4 2.15
16 59 40.2
59 35.2
7.8320
8.440
1.75
22
10 57.6
327
3 3 53.66
3 52.41
16 59 a7
58 55.7
7.8297
8.438
1.83
23
10 53.5
328
3 3 43.97
3 42.73
16 58 21.3
58 16.3
7.8270
8.436
1.90
24
10 49.4
329
3 3 34.33
8 33.09
16 57 42.1
57 37.2
7.8242
8.434
1.97
25
10 45.3
330
3 3 24 76
3 23.53
16 57 3.1
56 58.2
7.8214
8.431
2J0S
+ 2.66
26
10 41.2
331
3 3 15.25
3 14.03
16 56 24.3
56 194
7.8284
8428
2.08
2.71
27
10 37.1
332
3 3 5.81
3 4.60
16 55 45.8
55 41.0
7.8154
8423
2.12
2.75
28
10 33.0
333
3 2 56.43
2 55.23
16 55 7.6
55 2.8
7.8124
8422
2.16
2.79
29
10 28.9
334
3 2 47.13
2 45.95
16 54 29.7
54 25.0
7.8091
8418
2.20
2.83
SO
10 24.9
335
8 2 37.89
2 36.72
16 53 52.2
53 47.5
7.8053
8414
2.23
2.86
Dec 1
10 20.8
336
3 2 28.73
2 27.57
16 53 15.0
53 104
7.8011
8410
2.26
2.89
2
10 16.7
337
3 2 19.67
2 18.53
16 52 38.2
52 33.6
7.7969
8.403
2.29
2.91
3
10 12.6
338
3 2 10.69
2 9.56
16 51 1.8
5157.3
7.7929
^.401
2.32
2.94
4
10 8.6
339
3 2 180
2 0.68
16 51 25.8
5121.3
7.7890
8.396
2.33
2.96
5
10 4.5
340
3 152.98
151.87
16 50 50.2
50 45.8
7.7849
8.391
2.38
2.98
6
10 0.4
341
3 144.26
143.17
16 50 14.9
50 10.5
7.7800
8.886
2.40
8.00
7
9 56.3
342
3 135.64
134.56
16 49 40.1
49 35.8
7.7746
8.381
243
3.02
8
9 52.3
343
3 127.13
1 26.07
16 49 5.7
49 14
7.7685
8.375
2.43
3.03
9
948.2
344
3 I 18.75
I 17.71
16 48 31.8
48 27.6
7.7617
8.368
2.40
8.05
10
9 44.1
345
3 1 10J50
I 947
16 47 584
47 54.3
7.7547
8.362
249
3.06
11
9 40.1
346
3 I 2.39
1 1.38
16 47 25.5
47 21.5
7.7476
8.855
2.50
8.07
12
9 36.0
347
3 0 54.42
0 5342
16 46 53.2
46 49.2
7.7398
8.348
2.52
3.08
13
9 31.9
348
3 0 46.58
0 45.60
16 46 214
4617.5
7.7320
8.340
2.53
3.09
14
9 27.9
349
3 0 38.89
0 37.93
16 45 50.1
45 46.2
7.7240
8.333
2.54
3.09
15
9 23.8
350
3 0 31^
0 30.39
16 45 194
45 15.6
7.7157
8.325
2.55
3.10
16
9 19.7
351
3 0 23.92
0 23.00
16 44 49.2
44 45.5
7.7073
8.317
2.56
3.10
17
9 15.7
352
3 0 16.66
0 15.76
16 44 19.6
44 15.9
7.6989
8.308
2.57
3.11
18
9 11.6
353
3 0 9.53
0 8.65
16 43 50.7
43 47.1
7.6904
8.298
2.58
3.11
19
9 7.6
354
3 0 2.55
0 1.68
16 43 224
43ia9
7.6815
8.287
2.59
3.12
20
9 3.5
355
2 59 55.71
59 54.87
16 42 54.8
42 514
7.6722
8.277
2.60
8.12
21
8 59.5
356
2 59 49.02
59 48.19
16 42 27.9
42 24.6
7.6625
8.266
2.61
3.12
22
8 55.5
357
2 59 42.48
59 41.68
16 42 1.6
415&3
7.6323
8.256
2.61
3.18
23
8 514
358
2 59 36.10
59 35.31
16 41 35.9
41 32.7
7.6416
8.245
2.62
3.13
24
8 47.4
359
2 59 29.87
59 29.11
16 41 10.9
41 7.8
7.6305
8.233
2.62
3.14
25
8 434
360
2 59 23.81
59 23X)6
16 40 46.5
40 43.5
7.6190
R.222
2.63
3.14
26
8 39.3
361
2 59 17.90
59 17.17
16 40 22.8
40 19.9
7.6069
8.210
2.63
8.14
27
8 35.3
362
2 59 12.17
59 11.46
16 39 59.8
39 57.0
7.5941
8.197
2.64
3.14
28
8 81.2
363
2 59 6.60
59 5.91
16 39 37.5
39 34.8
7.5804
8.183
2.64
3.15
29
8 27.2
364
2 59 1.20
59 0.55
16 39 15.9
39 13.3
7.5659
8.169
2.65
3.15
30
8 23*1
365
2 58 56.01
58 55.37
16 38 55.0
38 52.5
7.5509
8.155
2.65
3.15
31
8 19:1
366
2 58 50.98
58 50.37
N.16 38 34.8
38 324
7.5344
8.140
.^.65
+ 3.15
344
NEPTUNE, 1855.
For Washington Skferatl Noon and Meridian Tnoiit.
Mean Solar Time of
HeridlaD Tnnait,
which preoedee
Sid. Oh.
Jan.
10
11
12
IS
14
15
16
17
18
19
SO
21
22
23
24
25
26
27
28
29
30
31
Feb. 1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
Mar. 1
h. m.
4 21.1
4 17.2
4 13.3
4 9.4
4 5.6
4 1.8
3 57.9
3 54.0
3 50.2
3 46.4
3 42.5
3 38.7
3 34.9
3 31.1
3 27.2
3 23.4
3 19.6
3 15.8
3 11.9
3 8.1
3 4.3
3 0.5
2 56.6
2 52.8
2 49.0
2 45.2
2 41.3
2 37.5
2 33.7
2 29.9
2 26.1
2 22.3
2 18.5
2 14.7
2 10.9
2 7.1
2 3.3
1 59.5
1 55.7
1 51S
1 48.1
1 44.3
1 40.5
1 36.7
I 32.9
1 29.1
1 25^
1 21.5
1 17.7
1 13.9
1 10.1
1 6.3
1 2.5
0 58.7
0 54.9
0 51.1
0 47 Jl
0 43.5
0 39.7
0 35.9
0 32.1
Side* Apparent Right Aaoensioa
At Sid. Oh.
h.
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
S3
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
23
S3
S3
23
23
23
23
23
0 59.14
1 3.75
1 8.47
1 13.30
1 18.24
123.28
1 2843
133.68
139.03
14448
150.03
1 55.68
2 IA3
2 7.28
2 13.22
2 19.25
2 25.37
2 31.58
2 37.88
2 44.27
2 50.74
2 57.30
3 3.94
3 10.65
3 1744
3 24.31
3 31.26
3 38.28
3 45.38
3 52.54
3 59.77
4 7X)6
4 14.41
4 21.82
4 29^
4 36.84
4 4444
4 52X)9
X 59.80
5 7.56
5 15.37
5 23.23
5 31.14
5 39.09
5 47.08
5 55.12
6 3.20
6 11.32
6 1947
6 27.65
6 35.86
6 44.10
6 52.37
7 0.67
7 8.99
71733
7 25.69
7 34.07
7 4246
7 50.87
7 59.29
At
Traneit.
0 58.95
1 3.56
1 8.28
1 13.10
1 18.03
123i)7
128.21
13346
138.80
144.25
1 49.79
1 5544
2 1.19
2 7.03
2 12.97
2 19.00
2 25.12
2 31.33
2 37.63
2 44X)2
2 50.49
2 57XM
3 3.67
3 10.38
3 17.17
3 24XM
3 30.99
3 38.01
3 45.10
3 52.26
3 5949
4 6.78
4 14.13
4 21.54
4 29.01
4 36.55
4 44.15
4 51.80
4 59JM)
5 7M
5 15.07
5 22.93
5 30.84
5 38.79
5 46.78
5 54.82
6 2.90
6 11.02
6 19.17
6 27.35
6 35.56
6 43.80
6 52.07
7 0.37
7 8.69
7 17.03
7 25.89
7 33.77
7 42.16
7 60.57
7 58.99
Apparent Dedinatlon.
At Sid. Ob.
-7 24 54
723354
7 23 4.7
7 2233.3
7 22 1.3
7 21 28.7
7 2055.4
7 2021.5
7 19 47.0
7 19 11.9
71836.2
7 17 59.9
717 23.0
716 45.5
716 7.5
7 15 28.9
7 14 49.7
7 14 \0X)
7 13 29.7
712 49.0
712 7.7
7 11 25.9
71043.7
710 \X)
7 917.8
834.2
7 50.1
7 5.6
6 20.7
5354
7 4 49.7
7 4 3.6
7 317.1
7 230.2
7 143X)
7 0 554
7 0 7.5
6 5919.2
6 58 30.6
6 57 41.7
6 56 52.6
6 56 3.2
6 5513.5
6 54 23.6
6 53 334
6 52 43i)
6 51 524
6 51 1.5
6 50 104
6 4919.2
6 48 27.8
647 36.2
646 44.5
6 45 52.6
6 45 0.6
644 8.5
643 16.3
6 42 24.1
64131.8
6 40394
—6 39 47.0
At
Transit.
24 6.7
23 36.7
23 6i)
2234.7
22 2.7
2130.1
20 56.8
20 22.9
19 48.4
1913.3
18 37.6
18 1.3
17 244
16 47X)
16 9.0
15 304
14 51.3
1411.6
13 314
12 50.7
12 94
1127.7
1045.5
10 2.8
9196
836.0
7 51.9
7 74
6 224
5 37.1
4 514
4 53
318.8
232.0
1443
0 573
0 93
59 21.1
5832.6
57 43.7
56 543
56 5.1
55154
54 253
53 353
5244.9
51543
51 34
50123
49 21.1
48 29.7
47 38.1
46464
45 543
45 83
44104
43183
42 96X)
4133.7
40413
3948.9
Log. of Motion in
a Sidereal Minute.
In R.A. In Dec
+ 73003
73107
73206
73303
73397
73488
73573
73657
73739
73819
73897
73973
7.6047
73119
73189
73256
7.6321
7.6383
7.6441
7.6497
73552
7.6606
7.6658
73708
73757
7.6805
7.6854
7.6902
7.6947
7.6989
7.7026
7.7063
7.7099
7.7135
7.7171
7.7206
7.7239
7.7271
7.7301
7.7329
7.7356
7.7383
7.7409
7.7434
7.7457
7.7479
7.7499
7.7518
7.7536
7.7553
7.7569
7.7584
7.7598
7.7611
7.7623
7.7634
7.7644
7.7652
7.7659
7.7666
-♦• 7.7672
+8314
8324
8334
8343
8352
8360
8368
8376
8384
8391
8398
8405
8412
8419
8425
8431
8437
8443
8.449
8454
8460
8465
8470
8475
8480
8484
8488
8492
8.496
8300
8304
8.507
8.511
8314
8318
8321
8324
8327
8330
8.532
8335
8337
8339
8341
8.543
8345
8347
8349
8351
8352
8354
8355
8356
8357
8358
8.559
8.560
8.560
8.561
83C1
+ S361
Log of Factor
for Second DiOT's.
IniLA.
In Dec.
+ 242
•1-3.19
2.41
3.19
241
3.18
2.41
3.18
240
3.17
2.40
3.17
240
3.16
239
3.16
239
3.15
238
3.15
238
3.14
237
3.14
237
3.13
236
3.13
235
3.12
234
3.11
233
3.11
233
3.10
232
339
232
338
231
337
230
336
239
335
238
334
237
333
236
332
235
331
234
330
2.23
239
232
238
231
237
230
2.96
2,19
835
2.18
2.93
2.16
8.91
2.14
839
2.13
837
2.12
835
2.10
833
238
831
236
8.79
8.04
8.77
232
8.75
230
8,73
1.98
8,71
1.96
838
1.94
8.66
1.92
833
130
8.60
137
837
134
833
131
849
1.78
845
1.74
840
1.70
835
1.66
838
131
831
136
8.13
130
838
1.44 1 .^ 13
+ 1361
NEPTUNE, 1855.
For Washington Siderwl Nooa and Meridian Timntit.
345
Mean Solar TioM of
Meridian Transit,
wtiich precedes
Sid. Oh.
8ide-
Date.
Apparent Right AaeaoalQn.
Apfiaiaot Daclinatinn
Loe. of Motion in
a^dsreal Minate.
Uig. of Factor 1
foTScood DiflTa. 1
At Sid. Oh.
At
Tranait
At»d.Oh.
At
Transit
lnR.A.
In Dec
InR.A.
In Dec
d. h. m.
h. ra. B.
in. i.
O 1 M
1 II
Mar. 2 0 28J
61
28 8 7.72
8 7.42
-6 88 54.5
88 56.4
+7.7676
+8.561
+ 1.26
3 0 24.5
62
23 8 16.16
8 15.86
638 2.0
88 8.9
7.7680
8.562
+ 1.14
4 0 20.7
63
23 8 24.60
8 24.30
687 9.5
8711.4
7.7682
8.562
5 0 16.9
64
23 8 33.04
8 32.75
6 8617.0
86 18.9
7.7688
8.562
6 0 13.1
65
23 8 41.49
8 41.20
685 24.5
85 26.3
7.7684
8.562
7 0 9.8
66
23 8 49.94
8 49.65
634 32.0
3488.8
7.7684
8.562
- iJOO
8 0 5.5
67
23 8 58.39
8 58.10
6 38 39.5
33 41.3
7.7688
8.562
2.15
9 0 1.7
68
23 9 6.83
9 6.54
6 32 47.1
32 48.9
7.7681
8J^1
- 1.14
2.25
9 23 57.9
69
23 9 15.27
9 14.98
6 8154.7
31 56.5
7.7678
8.561
1.26
2.88
10 23 54.2
70
23 9 23.70
9 2341
6 31 2A
81 4.2
7.7674
8.560
1.86
2.89
11 23 50.4
71
23 9 32.13
9 31.83
63010.2
8011.9
7.7670
8.559
144
244
12 23 46.6
72
23 9 40.55
9 40.25
6 2918.0
29 19.8
7.7665
8.558
1.50
248
IS 23 42.8
73
23 9 48.95
9 48.66
6 28 26X>
28 27.8
7.7658
8Ji57
1.56
2.52
14 23 39.1
74
23 9 57.34
9 57.05
6 27 34.1
27 85.9
7.7651
8.556
1.61
2.56
15 23 35.3
75
23 10 5.71
10 5.42
6 26 42.3
26 44.1
7.7642
8.555
1.66
2.59
16 23 31.5
76
23 10 14.07
10 13.78
6 25 50.7
25 52.5
7.7632
8.554
1.70
2.62
17 23 27.7
77
23 10 22.41
10 22.12
6 24 59.2
25 1.0
7.7621
8.553
1.74
2.64
18 23 33.9
78
23 10 30.73
10 30.44
6 24 7.9
24 9.7
7.7610
8.552
1.77
2.66
19 23 20.1
79
23 10 39.02
10 38.73
6 2316.7
23 18.6
7.7597
8.550
IJO
2.68
20 23 16.3
80
23 10 47.28
10 47.00
6 22 25.7
22 27.6
7.7584
8.548
1.88
2.70
21 23 12.5
81
28 10 55.52
10 55.24
6 2184.9
21 86.8
7.7568
8.546
1.86
2.72
22 23 8.7
82
23 11 3.73
11 8.45
620444
20 46.2
7.7550
8.544
1.89
2.74
23 23 4.9
83
23 11 11.90
11 11.63
619 54.1
19 55.8
7.7581
8.542
1.91
2.76
24 23 1.1
84
23 1120X)4
11 19.77
619 4.0
19 5.7
7.7512
8.540
1.93
2.78
25 22 57.3
85
23 1128.15
11 27.88
6 18 14.2
18 15.8
7.7492
8.538
1.95
2.80
26 22 53.5
86
28 11 36.22
11 35.95
6 17 24.6
17 26.2
7.7472
8.536
1.97
2 82
27 22 49.7
87
23 1144.25
11 43.99
616 35.3
16 36.9
7.7453
8.534
1.99
2.84
28 22 45.9
88
23 11 52.24
11 51.98
615 46.2
15 47.8
7.7433
8.531
2.01
2.86
29 22 42.1
89
23 12 0.19
11 59.93
6 14 57.5
14 59.1
7.7412
8.529
2.03
2.88
30 22 38.3
90
23 12 8.10
12 7.84
614 9X>
14 10.6
7.7388
8.526
2.05
2.90
31 22 34.5
91
23 12 15.97
12 15.70
6 13 20.9
18 22.4
7.7362
8.523
2.07
2.92
April 1 22 30.7
92
23 12 28.79
12 23.52
6 12 33.0
12 34.6
7.7336
8.520
2.09
2.93
2 22 26.9
93
23 12 31.56
12 31.30
6U45A
1147.1
7.7808
8.517
2.10
2.94
3 22 23.1
94
23 12 39.28
12 39.02
6 10 58.3
10 59.9
7.7279
8.514
2.11
2.95
4 22 19.8
95
23 12 46.95
12 46.69
6 1011.5
1013X)
7.7247
8.510
2.12
2.96
5 22 15.5
96
23 12 54.56
12 54.31
6 9 25.1
9 26.5
7.7215
8.507
2.14
2.97
6 22 11.7
97
23 13 2.12
13 1.87
6 8 39.0
8404
7.7182
8.503
2.15
2.98
7 22 7.9
98
23 13 9.62
18 9.38
6 7 53.3
7 54.7
7.7148
8.500
2.16
2.99
8 22 4.1
99
23 13 \7J06
13 16.83
6 7 BX)
7 94
7.7115
8496
2.17
3.00
9 22 0.3
100
23 13 24.44
13 24.21
6 6 23.1
6 24.5
7.7083
8492
2.18
3.01
10 21 56.5
101
23 13 81.76
13 31.54
6 5 88.6
5 40.0
7.7048
8488
2.19
3.02
11 21 52.7
102
23 13 39.02
13 38.80
6 4 54.5
4 55.9
7.7010
8.484
2.20
3.03
12 21 48.9
103
23 13 46.22
13 46.00
6 4 10.8
412.2
7.6970
8480
2.21
SJOA
13 21 45.1
104
23 13 53.35
13 53.13
6 8 27.6
3 29.0
7.6928
8475
2.22
3.05
14 21 41.8
105
23 14 0.42
14 0.19
6 2 44.8
2 46.2
7.6885
8471
2.23
3.06
15 21 874
106
23 14 7.41
14 7.19
6 2 2.5
2 3.9
7.6841
8466
2.24
3.07
16 21 83.6
107
23 14 14.33
14 14.12
6 120.7
122.1
7.6797
8461
2.25
3.07
17 21 29.8
108
23 14 21.18
14 20.97
6 089.3
040.7
7.6753
8456
2.26
3.08
18 21 26.0
109
23 14 27.96
14 27.75
5 59 58.4
59 59.8
7.6706
8451
2.27
3.09
19 21 22.1
110
23 14 34.66
14 34.45
5 59 18.1
59 194
7.6656
8.445
2.28
3.10
20 21 18.3
HI
23 14 41.28
14 41.08
5 58 38.2
5839.5
7.6603
a439
2.28
3.11
21 21 14.5
112
23 14 47.83
14 47.63
5 57 58.9
58 0.1
7.6549
8.433
2.29
3.11
22 21 10.7
113
23 14 54.30
14 54.10
5 57 20.1
57 21.8
7.6494
8427
2.29
3.12
23 21 6.8
114
23 15 0.68
15 0.48
5 56 41.8
56 48i)
7.6438
8.421
2.31
3.13
24 21 3.0
115
23 15 6.98
15 6.78
5 56 4.1
56 5.3
7.6381
8415
2.31
3.13
25 20 59.2
116
23 15 13.19
15 13.00
5 55 26.9
55 28.1
7.6323
8.408
2.32
3.14
26 20 55.4
117
23 15 19.32
15 19.13
5 54 50.3
54 513
7.6262
8.402
2.33
3.14
27 20 51.5
118
23 16 25.37
15 25.18
5 54 14.3
54154
7.6200
8.395
2.33
8.15
28 20 47.7
119
23 15 31.33
15 31.14
5 53 88.9
53 39.9
7 6135
8.388
2.84
3.16
29 20 43.9
120
23 15 37.20
15 37.01
5 58 4.0
53 5.0
7.6070
8.380
2.34
3.16
30 20 40.1
121
23 15 42.98
15 42.80
—5 52 29.7
5230.7
+7.6003
+8.373
- 2.85
-3.17
44
346
NEPl'UNE, 1855.
For W— hington Sidereal Nooo and Mcrldtan Tmnait.
Mean Solar TinM of
Meridian Tnuelt,
which precedea
SiiLOh.
Side-
real
Data.
Apparsot Righl
Aecenaion.
Apparent Daclinatkm.
Log. of Motion in
a Sidereal Minute.
Log. of Factor
for Second DiflT'e.
At Sid. Oh.
Ai
TiaoeiU
At Sid. Oh.
At
Traneit
InR.A.
In Dec
InR-A.
In Pec
d.
h. m.
h. m. a.
m. e.
-5 516^
t u
Mar 1
20 36.2
122
23 15 48.67
15 48.49
51 57.0
+7.5933
+8.365
- 2-35
- 3.18
s ao ds.4
123
23 15 54.27
15 54.09
ft 61 22.9
5123.9
7.5861
8.357
2.36
3.18
3 so 28.6
124
23 15 59.77
15 59.60
ftft0 504
50 514
7.5787
8.349
2.36
3.19
4 80 24.7
126
23 16 5.18
16 5.01
6 60 18.5
5019.5
7JS710
8.341
2.36
3.19
ft 20 20^
126
23 16 10.50
16 10.33
6 49 47.3
49 48.2
7.5632
8.332
2.37
3.19
6 20 17X>
127
23 16 15.72
16 15.55
64916.7
4917.5
7.5552
8.323
2.37
3.20
7 20 13.1
128
23 16 20.84
16 20.68
6 4846.7
4847.5
7.5470
8.314
2-37
3.20
8 20 9.3
129
23 16 25.86
16 25.71
54817.3
48 18.1
7..'»84
8.305
2-38
3.21
9 20 54
130
23 16 30.79
16 30.64
547 48.6
47 494
7.5296
8.295
2.38
3.21
10 20 1.6
131
23 16 35.62
16 3547
647 20.5
47 21;}
7.5205
8.285
2.38
3.22
11
19 57.7
132
23 16 40.34
16 40.20
546 53.1
46 53.9
7.5111
8.274
2.39
3.22
12
19 53.9
133
23 16 44.96
16 44.82
6 46 264
46 27.2
7.5013
8.263
2.39
3.22
13
19 50.0
134
23 16 4947
16 49.34
646 04
46 1.1
7.4913
8.252
240
3.23
14
19 46.2
135
23 16 53.88
16 53.75
645 35.1
45 35.8
74809
8.240
240
3.23
1ft
19 42^
136
23 16 58.18
16 58.06
6 45104
4511.1
74701
8.227
240
3.23
16
19 38.5
137
23 17 2.38
17 2.26
5 44 464
44 47.2
74590
8.214
240
3.23
17
19 34.6
138
23 17 6.47
17 6.35
644 23.2
44 23.9
7.4475
8.201
2.41
3.24
18
19 30.8
139
23 17 10.45
17 10.34
6 44 0.7
44 1.3
7.4357
8.187
2.41
3.24
19
19 26.9
140
23 17 14.32
17 14.21
5 43 38.9
43 39.5
74233
8.173
241
3.24
20
19 23.0
141
23 17 18.08
17 17.97
6 4317.8
43184
74105
8.158
242
3.24
21
19 19.1
142
23 17 21.73
17 21.62
5 42 574
42 58.0
7.3972
8.143
2.42
3.25
22
19 15.3
143
23 17 25.27
17 25.16
5 42 37.8
42 38.3
7.3834
8.127
242
3.25
23
19 11.4
144
23 17 28.69
17 28.59
6 42 18.8
4219.3
7.3690
8.111
243
3.25
24
19 7.5
145
23 17 32.01
17 31.90
5 42 0.5
42 1.0
7.3541
8.094
243
3.25
2ft
19 3.6
146
23 17 35.21
17 35.10
64143.0
4143.5
7.3385
SJOIB
243
3.25
26
18 59.8
147
23 17 38.29
17 38.19
6 4126.2
4126.7
7.3224
8.058
243
3J5
27
18 ft5.9
148
23 17 41.26
17 41.16
5 41 10.1
41 10.6
7.3055
8.039
2.43
3.25
28
18 52.0
149
23 17 44.11
17 44.02
5 40 54.8
40 55.2
7.2879
8.018
244
3.26
29
18 48.1
150
23 17 46.85
17 46.76
5 40 40.2
40 40.6
7.2696
7.996
244
3.26
30
18 44.2
151
23 17 4947
17 49.39
5 40 26.3
40 26.7
7.2504
7.973
244
3.26
31
18 40.3
152
23 17 51.98
17 51.90
5 40 13.2
4013.6
7.2302
7.947
244
3.26
June 1
18 364
153
23 17 54.37
17 54JW
5 40 0.9
40 1.3
7.2089
7.920
245
3.26
2
18 .32.5
154
23 17 56.64
17 56J>7
5 39 49.3
39 49.7
7.1868
7.891
245
3.26
3
18 286
155
23 17 58.80
17 58.73
5 3938.5
39 38.9
7.1637
7.860
245
3.26
4
18 24.7
156
23 18 0.84
18 0.77
5 39 284
39 28.8
7.1390
7.826
245
3.26
ft
18 20.8
157
23 18 2.76
18 2.70
5 39 19.1
39 19.5
7.1126
7.790
2.46
3.26
6
18 16.9
158
23 18 4.56
18 4.51
5 39 10.6
39 10.9
7.0841
7.751
246
3.26
7
18 13.0
159
23 18 6.24
18 6.20
5 39 2.8
39 3.1
7.0531
7.710
246
3.26
8
18 9.1
160
23 18 7.81
18 7.77
5 38 55.8
38 56.0
7.0196
7.664
246
3.26
9
18 5.2 161
23 18 9.26
18 9.22
5 38 49.6
38 49.7
6.9833
7.612
247
3.26
10
18 1.3
162
23 18 10.58
18 10.54
5 38 44.1
38 44.2
6.9435
7.553
2.47
3.26
11
17 57.4
163
23 18 11.78
18 11.74
5 38 394
38 39.5
6.8996
7483
2.47
3.26
12
17 53.5
164
23 18 12.86
18 12.83
5 38354
38 35.5
6.8507
7400
247
3.26
13
17 49.6
165
23 18 13.82
18 13.79
5 3832.2
38 32.3
6.7953
7.298
247
3.26
14
17 45.6
166
23 18 14.66
18 14.63
5 38 29.7
38 29.8
6.7320
7.161
247
3.26
15
17 41.7
167
23 18 15.38
18 15.35
5 38 28.0
3828.1
6.6682
6.957
247
3.26
16
17 37.8
168
23 18 15.97
18 15.95
5 38 27.1
38 27.2
6.5698
+6.562
247
3.26
17
17 33.9
169
23 18 16.44
18 1643
5 38 27.0
38 27.0
64589
-6.240
247
3.26
18
17 29.9
170
23 18 16.80
18 16.79
5 38 27.6
38 27.6
6.3104
6.852
247
3.26
19
17 26.0
171
23 18 17.03
18 17.02
5 38 29.0
38 29.0
6.0841
7.098
246
3.25
20
17 22.1
172
23 18 17.14
18 17.14
6 3831.2
3831.1
+5.5960
7.252
246
3.25
21
17 18JJ
173
23 18 17.14
18 17.14
63834.1
3834.0
-5J6444
7.365
246
3.25
22
17 14.2 174
23 18 17.02
18 17.02
5 3837.8
38 37.7
6.1029
7453
246
3.25
23
17 10.3 175
23 18 16.78
18 16.79
5 3842.2
3842.1
6.3209
7.527
2.45
3.25
24
17 6^3 176
23 18 1642
18 16.43
538474
3847.3
64652
7.589
245
3.25
2ft
17 2.4 177
23 18 15.94
18 15.95
53863.3
38 53.2
6.5728
7.641
245
3.25
26
16 584' 178
23 18 15.34
18 15.36
5 39 0.0
38 59.8
6.6587
7.686
2.45
3.24
27
16 54.5, 179
23 18 14.62
18 14.65
5 39 74
39 7.1
6.7300
7.729
245
3.24
28
16 50.5 180
23 18 13.79
18 13.82
5 39 15.5
3915.2
6.7909
7.769
244
3.24
29
16 46.6 181
23 18 12.84
18 12.87
5 39 24.3
39 24.0
6.8442
7.806
244
3Jt4
30
16 42.6! 182
23 18 11.78
18 11.81
— 530 3.T9
.^9.^^6
-6.8916
-7.840
- 244
-3.24
NEPTUNE, 1855.
For WMhingtoa Siddreftl Noon and Meridian TAiult.
347
MMn Solar Time of
Meridian Trandt,
which pracadae
Sid. Oh.
Skia-
real
Apparaat Bight Aaeeosioa.
Appaieot DecUnatloo.
Lof.ofMoUonin
U^. of Factor
for Second Diff 'a.
Date.
AlSid.Oh.
At
Transit.
At Sid. Oh.
At
Transit.
InR.A.
In Dec
InlLA.
In Dec
d. h. m.
h. m. a.
m. a.
O 1 N
f 11
July I 16 38.7
183
23 18 10.60
18 10.63
-63944.2
39 43.9
-6.9342
-7.871
- 244
- 3.23
2 16 34.7
184
23 18 9.31
18 9.34
6 39 55.2
39 64.9
6.9728
7.899
243
3.23
3 16 30.8
185
23 18 7.90
18 7.93
6 40 6.9
40 6.6
7.0081
7.925
2.43
3.23
4 16 96.8
186
23 18 6.37
18 6.41
5 4019.4
40 19.1
7X)405
7.950
2.43
3.23
5 16 22.9
187
23 18 4.73
18 4.78
540 32.6
40 32.3
7.0705
7.972
2.43
3.22
6 16 18.9
188
23 18 2.98
18 3.03
6 40 46.5
4046.1
7.0983
7.994
2.42
3.22
7 16 15.0
189
23 18 1.12
18 1.17
6 41 1.1
41 0.7
7.1245
8.015
2.42
3.22
8 16 11.0
190
23 17 59.15
17 59.19
5 41 164
41 15.9
7.1490
a035
242
3.21
9 16 7.1
191
23 17 57.06
17 67.10
5 4132.4
4131.9
7.1724
8.054
241
3.21
10 16 3.1
192
23 17 54.86
17 54.91
5 4149.0
4148.5
7.1944
8.072
241
3.20
U 15 59.1
193
23 17 62.55
17 52.60
642 6.3
42 5.8
7.2151
8.089
241
3.20
12 15 55.1
194
23 17 50.13
17 50.19
5 42 24^
42 23.7
7.2348
8.105
240
3.19
13 15 51.2
195
23 17 47.60
17 47.67
5 42 43.0
42 42.3
7.2532
8.120
240
3.19
U 15 47.2
196
23 17 44.97
17 45.04
543 2.3
43 1.6
7.2707
8.134
2.40
3.18
15 15 43.2
197
23 17 42.23
17 42;31
6 43 22.2
43 21.5
7.2873
8.148
2.39
3.18
16 15 39.2
198
23 17 39.39
17 39.47
643 42.8
43 42.1
7.3032
8.161
2.39
8.17
17 15 35.2
199
23 17 36.45
17 36.53
644 4.0
44 3.3
7JJ182
8.174
2.38
3.17
18 15 31U3
200
23 17 33.40
17 33.49
644 25.8
44 25.1
7.3325
8.187
2.38
3.16
19 15 27.3
201
23 17 30.25
17 30.34
5 44 48.3
44 47.6
7.3464
8.199
2.37
3.16
20 15 23.3
202
23 17 27.00
17 27.10
6 45114
45 10.7
7.3596
8.211
2.37
3.15
21 15 19.3
203
23 17 23.65
17 23.76
6 45 35.1
46 344
7.3725
8.221
2.36
3.14
22 15 15.3
204
23 17 20.21
17 20.32
6 45 594
45 58.7
7^849
8.231
2.36
3.13
23 15 11.3
205
23 17 16.67
17 16.78
5 46 24.3
46 23.5
7.3966
8.241
2.35
3.12
24 15 7^
206
23 17 13.04
17 13.15
6 46 49.7
46 48.9
74077
8.251
2.35
3.12
25 15 3.3
207
23 17 9.31
17 9.42
6 4715.7
47 14.9
74182
8.261
2.34
3.11
26 14 59.3
208
23 17 5.49
17 6.60
6 47 42.2
47 414
74284
8.270
2.34
3.10
27 14 55.3
209
23 17 1.58
17 1.70
6 48 9.3
48 8.5
7.4383
8.279
2.33
3.10
28 14 51.3
210
23 16 57.59
16 57.71
6 48 36.9
48 36.1
7.4478
8.287
2.33
3.09
29 U 47.3
211
23 16 63.51
16 63.63
5 49 5.1
49 4.3
7.4569
8.295
2.32
3.08
30 14 43U5
212
23 16 49.34
16 4946
6 4933.7
49 32.9
74658
8.302
2.31
3J07
31 14 39.3
213
23 16 45.09
16 45.21
5 50 2.9
50 2.0
74743
8.310
2.30
3.06
Aof. 1 14 35.3
214
23 16 40.75
16 40.88
6 50 32.5
50 31.6
74826
8.317
2.29
3.05
2 14 31.3
215
23 16 36.33
16 3647
5 51 2.6
51 1.7
74906
8.324
2.28
3.04
3 14 27.3
216
23 16 31.83
16 31.97
5 51 33.2
5132.3
7.4983
8.330
2.27
3.03
4 14 23.3
217
23 16 27.25
16 27;39
6 52 4.3
52 3^
7.5057
8.337
2.26
3.02
5 14 19.3
218
23 16 22.60
16 22.74
5 52 35.8
52 34.8
7.5130
8.343
2.25
3.01
6 14 15.3
219
23 16 17.87
16 18X>1
5 53 7.7
53 6.7
7.5202
8.349
2.24
3.00
7 14 11.3
220
23 16 13.06
16 13.21
6 53 40.1
53 39.1
7.5271
8.354
2.23
2.99
8 14 7.3
221
23 16 8.18
16 8.33
6 54 12.9
54 11.9
7.5336
8.360
2.22
2.97
9 14 3.3
222
23 16 3.23
16 3.38
5 64 46.1
64 45.1
7.5397
8.365
2.21
2.96
10 13 59J3
223
23 16 58.21
15 58.37
5 5519.7
5518.7
7.5453
8^70
2.20
2.95
11 13 55.3
224
23 15 63.12
15 53.29
6 55 53.7
55 52.7
7.5507
8.375
2.19
2.93
12 13 51.3
225
23 15 47.98
15 48.15
5 56 28.1
56 27.0
7.5559
8.380
2.17
2.91
13 13 47.2
226
23 15 42.77
15 42.94
5 57 2.8
57 1.7
7.5610
8.384
2.16
2.89
14 13 43.2
227
23 15 37.50
15 37.67
6 57 37.8
57 36.8
7.5659
8.388
2.14
2.87
15 13 39.2
228
23 15 32.17
15 32.34
6 58 13.2
5812.2
7.5705
8.392
2.12
2.85
16 13 35.2
229
23 15 26.79
15 26.96
5 5848.9
5847.9
7.5750
8.396
2.10
2.82
17 13 31.1
230
23 15 21.35
15 21.52
6 59 24.9
59 23,9
7.5792
8400
2.08
2.80
18 13 27.1
231
23 15 15.86
15 16.03
6 0 1.2
0 0.2
7.5831
8404
2.06
2.78
19 13 23.1
232
23 15 10^2
15 10.49
6 037.8
036.8
7.6869
8407
2.04
2.76
20 13 19.1
233
23 15 4.73
15 4.90
6 114.7
113.6
7.5905
8410
2.02
2.73
21 13 15.0
234
23 14 59.10
14 59.27
6 151.8
160.7
7.5940
8413
2.00
2.70
22 13 11.0
235
23 14 53.43
14 63.60
6 2 29.2
2 28.0
7.5974
8415
1.98
2.66
23. 13 7.0
236
23 14 47.71
14 47.88
6 3 6.7
3 5.5
7.6006
8417
1.96
2.63
24 13 3.0
237
23 14 41.95
14 42.12
6 3444
3 43.2
7.6036
8.419
1.94
2.60
25 12 58.9
238
23 14 36.15
14 36.33
6 4 22.3
4 21.1
7.6063
8421
1.91
2.56
26 12 54.9
239
23 14 30.31
14 30.50
6 5 04
4 59.2
7.6088
8423
1.88
2.52
27 12 50.9
240
23 14 24.44
14 24.64
6 6 38.6
5 374
7.6111
8425
1.85
248
28 12 46.9
241
23 14 18.55
14 18.74
6 617.0
615.8
7.6133
8427
1.82
2.43
29 12 42.8
242
23 14 12.63
14 12.81
6 6 55.5
6 54.3
7.6153
a428
1.79
2.38
30 12 38.8
243
23 14 6.68
14 6.86
—6 7 34.2
7 33.0
-7.6171
-8429
- 1.75
- 2.32
348
NEPTUNE, 1855.
For W«Bhingt<m SJdewl Noon and Meridton Tnadu
Mean Solar Time of
Meridian TraiMil,
which praewiea
SidToh.
Sida-
real
Dale.
Appareni Right Aacanaloa.
Appanot DadinatkNi.
Loff.ofMoUoQiii
aSSdMealBUiMU.
Lqc. of Factor
for^condDUr'a.
At Sid. Oh.
AtTran.
At Sid. Oh.
AiTran
I0R.A.
In Dec
I11R.A.
loDee.
d. h. m.
b. m. s.
m. a.
O / II
1 M
Auf. 31 18 34.8
344
83 14 0.70
14 0.89
—6 818.9
811.7
-73188
-8430
- 1.71
- 835
Sapt 1 IS 30.8
S 12 S6.7
845
83 13 54.70
13 54.90
6 8 51.8
8 50.5
7.6803
8481
136
- 8.16
846
83 13 48.69
13 48.89
6 9 30.7
9 894
7.6316
8.431
1.60
8 12 28.7
847
83 13 48.66
13 43.86
610 9.7
10 8.4
7.6387
8433
133
4 12 18.7
848
83 18 36.61
13 36.81
61048.7
10 47.4
7.6337
8438
145
6 12 14.7
849
83 13 30.54
13 30.74
61197.7
11263
7.6846
8433
135
6 12 10.6
850
83 13 84.47
13 34.67
613 6.8
12 5.6
73853
8434
131
7 12 6.6
251
83 13 18.39
13 18.59
618 45.9
12 44.7
7.6360
8434
- IXH
8 12 2.9
858
83 13 18.30
13 13.50
613 85X>
13 23.7
7.6365
8434
9 11 58.6
853
83 13 6.81
13 6.41
614 4.1
14 2.8
7.6867
8433
+ 8.14
10 U 54.5
854
83 13 0.11
13 0.31
614 43.1
14 413
73368
8433
835
11 11 50.5
855
83 13 54.01
13 54.31
6 15 38.1
15 20.8
7.6366
8438
+ 138
834
12 11 46.4
856
83 18 47.92
13 48.18
616 1.0
15 59.7
73363
8431
134
841
13 U 42.4
857
33 13 41.84
13 43X)4
61639.8
16 383
73356
8430
136
847
14 11 38.3
858
23 18 35.76
13 35.96
6 17 18.5
17 17.2
73349
8489
145
833
15 11 34.3
259
83 13 89.69
13 39.89
6 17 57.1
17 553
7.6341
8438
133
837
16 11 30.2
260
33 13 83.64
18 83.84
618 35.6
18343
7.6881
8486
1.60
3.61
17 11 26.2
261
33 18 17.61
13 17.80
6 19 13.9
19 123
7.6319
8485
1.66
3.65
18 11 22.1
262
33 13 11.59
13 11.79
6 19 53.1
19 50.8
73304
8.488
1.71
8.69
19 11 18.1
263
23 13 5.59
13 5.79
6 3030.1
20 283
73187
8431
1.75
8.78
20 11 14.0
264
83 11 59.63
11 59.88
6 81 7.9
21 63
73169
8418
1.79
8.75
21 11 10.0
265
23 11 53.67
U 53.87
6 3145.5
2144.2
73149
8415
133
3.78
22 11 6.0
266
23 1147.75
11 47.95
688 38.8
22 213
73138
8413
136
330
23 11 2J0
267
83 11 41.86
1143X)6
6 88 59.9
22 583
73106
8.409
1.89
832
24 10 58X>
268
83 1136/M)
1136.30
6 88 36.7
23 353
7.6Q88
8406
132
834
25 10 53.9
269
33 11 30.30
1130^8
6 84 13.3
24 12.1
7.6057
8403
1.95
836
26 10 49.9
270
38 11 84^9
11 84.59
6 84 49.6
24 48.4
7.6039
8.400
137
838
27 10 45.9
271
83 11 18.64
11 18.84
C 35 35.6
25 244
7.5998
8397
830
8.90
28 10 41.9
272
33 11 18.93
11 13.13
6 86 1.3
26 0.1
73966
8393
833
833
29 10 37.0
273
83 U 7.36
11 7.46
6 36 86.7
26 353
7^933
8389
834
8.94
30 10 33.8
274
23 11 1.64
11 1.84
6 3711.8
27 103
73897
8385
836
8.95
Oct. 1 10 29.8
275
23 10 56.07
10 56.96
6 37 46.6
27 453
73861
8381
838
3.96
2 10 25.8
276
23 10 50.54
10 50.73
6 38 31X>
28 19.7
73883
8376
3.10
8.98,
8 10 21.8
277
23 10 45M
10 45.35
6 28 55.1
28 53.7
73781
8371
8.18
3.00
4 10 17.7
278
23 10 39.64
10 39.83
6 39 38.7
29 274
73737
8366
8J4
3311
5 10 13.7
279
23 10 34.27
10 34.46
630 1.9
30 0.7
73699
8361
8.16
333
6 10 9.7
280
23 10 28.96
10 89.15
6 3034.7
30333
73644
8355
8.17
333
7 10 5.7
281
23 10 23.71
10 38.90
6 31 7.1
31 5.9
7.5593
8349
3.19
334
8 10 1.6
282
23 10 18.53
10 18.71
6 3139.0
31 37.9
7.5539
8343
831
335
9 9 57.6
283
23 10 13.41
10 13.59
63310.5
32 94
73483
8337
838
336
10 9 53^
284
23 10 8.36
10 8.53
633 41.6
32 403
73483
8331
833
837
11 9 49.6
285
23 10 3.38
10 3.54
6 3313.3
3311.1
73360
8385
834
338
12 9 45.5
386
23 9 58.46
9 58.63
633 48.3
33 41.2
73896
8318
835
339
13 9 41.5
287
23 9 53.62
9 53.79
634 11.9
34 103
73331
8311
836
3.10
14 9 37.5
288
23 9 48.85
9 49J0S
634 41.0
3439.9
73168
8303
837
3.11
15 9 33.5
289
23 9 44.16
9 44^
635 9.6
35 83
73089
8.895
938
3.13
16 9 29.5
290
23 9 39.56
9 39.73
635 37.6
35363
73013
8386
839
3.13
17 9 25.5
891
23 9 35XM
9 85.90
636 5.1
36 4.1
74933
8377
830
3.14
18 9 21.5
393
23 9 30.60
9 30.76
6 36 33.0
36 31.0
74850
8367
831
3.15
19 9 17.5
393
23 9 26^5
9 36^40
6 36 58.3
36 573
74763
8357
838
3.16
20 9 133
894
23 9 81.98
9 98.13
6 37 34.1
37 23.1
74673
8.847
833
3.17
21 9 9.5
395
83 9 17.80
9 17.95
637 49.3
37 483
74580
8.837
834
3.17
28 9 5.5
396
83 9 13.71
9 13.86
6 3813.8
3812.9
74483
8387
835
3.18
23 9 1.5
397
33 9 9.71
9 9.86
63837.7
38 36.9
74883
8316
836
3.18
84 8 57.5
398
33 9 5.81
9 5.95
639 1.0
39 03
74879
8304
837
3.19
85 8 53.5
899
83 9 8i)0
9 8.14
639 83.7
39 883
74173
8.198
838
330
26 8 49.5
300
83 8 58.89
8 58.43
639 45.7
39453
74060
8.179
839
330
87 8 45.5
301
83 8 54.67
8 54.80
640 7.1
40 64
73944
8.166
939
331
88 8 41.5
308
83 8 51.15
8 51.38
640 87.9
40 873
73831
ai58
8.40
331
89 8 37.5
303
33 8 47.73
8 47.86
6 4048.0
40 473
73693
8.137
840
339
30 8 83.6
304
83 8 44^1
8 44.54
641 7.4
41 6.7
73557
8.183
841
338,
31 8 89.6
305
83 8 41.90
8 41.33
—6 4186.1
41353
-73417
-8.106
+ 841
-¥ 333
NEPTUNE, 1866.
For Waahington Sidereal Noon and Meridian TranatU
349
Wean Solar Time of
Meridian Transit,
Side-
real
Apparent Right Ascension.
Log. of Motion in
a sSdMnl Minut«.
Lq*. of Factor 1
fbrSeeond Diff'a. 1
which precedes
Bii Oh.
Date.
At3id.0h.
AtTran.
At Sid. Oh.
AtTran.
InR.A.
In Dec
InlLA.
In Dec
d.
h. m.
h.
m. a.
m. a.
o 1 n
1 M
Nor. 1
8 25.6
306
23
8 38.09
8 38.21
—6 4144.2
4143.6
-7.8270
^xm
+ 242
+ 3.23
2
8 21.6
307
23
8 35.09
8 35.20
6 42 1.6
42 1.0
7.3116
8.073
242
3.23
3
8 17.6
308
23
8 32.19
8 32.30
6 4218.3
42 17.7
7.2953
8.056
243
3.24
4
8 13.7
309
23
8 29.40
8 29.51
6 42 34.3
42 33.7
7.2783
8.037
243
3.24
5
8 9.7
310
23
8 26.73
8 26.83
6 42 49.5
42 49.0
7.2602
8.016
244
8.24
6
8 5.7
311
23
8 24.17
8 24.26
6 43 4.1
43 3.6
7.2410
7.993
244
8.25
7
8 1.7
312
23
8 21.72
8 21.81
6 4317.9
4317.4
7.2207
7.969
244
3^5
8
7 57.8
313
23
8 19.38
8 1947
6 43 31.0
43 30.5
7.1992
7.945
245
8.25
9
7 538
314
23
8 17.16
8 17.24
6 43 43.3
43 42.9
7.1765
7.920
245
3.26
10
7 49.8
315
23
8 15.06
8 15.13
6 43 54.9
43 54.5
7.1522
7.892
2.45
3.26
11
7 45.8
316
23
8 13.08
8 13.14
6 44 5.7
44 5.4
7.1264
7.861
245
3.26
12
7 41.9
317
23
8 11.21
8 11.27
6 4415.8
4415.5
7.0987
7.829
2.46
3.26
13
7 37.9
318
23
8 9.46
8 9.52
6 44 25.1
44 24.8
7.0689
7.793
246
3.27
U
7 33.9
319
23
8 7.84
8 7.89
6 44 33.6
44 33.4
7.0365
7.754
246
3.27
15
7 30.0
320
23
8 6.33
8 6.38
6 44 41.4
44 41.2
7.0013
7.710
247
8.27
16
7 26.0
321
23
8 4.94
8 4.99
6 44 48.4
44 48.2
6.9631
7.661
247
3.27
17
7 22.1
322
23
8 8.68
8 3.72
6 44 54.6
44 54.4
6.9210
7.606
247
8.27
18
7 18.1
323
23
8 2.54
8 2.57
6 45 0.0
44 59.8
6.8749
7.542
247
3.27
19
7 14.2
324
23
8 1.52
8 1.55
6 45 4.6
45 4.4
6.8228
7468
2.48
3.28
20
7 10.2
325
23
8 0.63
8 0.65
6 45 8.4
45 8.3
6.7632
7.379
248
8.28
21
7 6.3
326
23
7 59.86
7 59.88
6 45 11.5
45 11.4
6.6932
7.265
248
3.28
22
7 2.3
327
23
7 59.21
7 59.23
6 45 13.8
45 13.6
6.6085
7.109
248
3.28
23
6 58.4
328
23
7 58.69
7 58.71
6 45 15.2
45 15.1
6.5026
6.863
248
8.28
24
6 5AA
329
23
7 58.30
7 58.32
6 45 15.8
45 15.8
6.3615
-«.240
2.48
3.28
25
6 50.5
330
23
7 58.03
7 58.04
6 45 15.7
45 15.7
6.1518
+6.582
249
3.28
26
6 46.5
331
23
7 57.89
7 57.90
6 4514.8
45 14.8
-5.7365
6.973
249
3.28
27
6 42.6
332
23
7 57.88
7 57.88
6 45 lao
45 13.1
+5.5219
7.175
249
3.28
28
6 38.7
333
23
7 57.99
7 57.99
645 10.4
45 10.6
6.0847
7.313
249
BJ2S
29
6 34.8
334
23
7 58.23
7 58.22
6 45 7.1
45 7.3
6.3231
7417
249
3.28
30
6 30.8
335
23
7 58.60
7 58.58
6 45 3.0
45 3.2
6.4775
7.500
249
3.28
Dec 1
6 26.9
336
23
7 59.10
7 59.07
6 44 58.0
44 58.3
6.5908
7.569
249
3.28
2
6 23.0
337
23
7 59.72
7 59.69
6 44 52.2
44 52.6
6.6803
7.630
249
3.28
3
6 19.1
338
23
8 0.47
8 0.44
644 45.7
44 46.1
6.7541
7.682
249
3.28
4
6 152
339
23
8 1.35
8 1.32
6 44 38.4
44 38.8
6.8165
7.729
249
8.28
5
6 11^
340
23
8 > 2.36
8 2.32
6 44 30J2
44 30.6
6.8712
7.772
249
8.28
6
6 7.4
341
23
8 3.50
8 3.45
6 44 21.2
44 21.7
6.9199
7.811
249
8.88
7
6 3.5
342
23
8 4.76
8 4.71
6 44 11.5
44 11.9
6.9639
7.848
2.49
8.28
8
5 59.6
343
23
8 6.15
8 6.10
6 44 1.0
44 1.4
7.0042
7.882
2.49
8.28
9
5 55.7
344
23
8 7.67
8 7.62
6 43 49.6
43 50.0
7.0409
7.913
249
3.28
10
5 51.8
345
23
8 9.32
8 9.26
6 43 37.4
43 37.8
7.0748
7.942
249
8.28
11
5 47.9
346
23
8 11.09
8 11.03
6 43 24.4
43 24.9
7.1060
7.969
249
3.28
12
5 44.0
347
23
8 12.99
8 12.93
6 4310.6
43 11.2
7.1351
7.994
248
3.28
13
5 40.1
348
23
8 15.02
8 14.95
6 42 56.0
42 56.6
7.1623
8.017
248
3.27
14
5 36.2
349
23
8 17.18
8 17.10
6 42 40.6
42 41.2
7.1881
8.039
248
8.27
15
5 32.3
350
23
8 19.46
8 19.38
6 42 24.5
42 25.1
7.2117
8.060
248
3.27
16
5 28.4
351
23
8 21.87
8 21.78
6 42 7.6
42 8.2
7.2343
8.080
248
3.27
17
5 24.5
352
23
8 24.40
8 24.31
64149.9
4150.5
7.2558
8.099
247
8.27
18
5 20.6
353
23
8 27.06
8 26.96
6 4131.4
41 32.1
7.2762
8.117
247
3.26
19
5 16.7
354
23
8 29.84
8 29.74
6 41 12.2
41 12.9
7.2955
8.134
247
3.26
20
5 12.8
355
23
8 32.74
8 32.64
6 40 52.2
40 52.9
7.3138
8.150
247
3.26
21
5 8.9
356
23
8 35.77
8 35.66
6 40 31.5
40 32.2
7.3312
8.166
247
3.26
22
5 5.0
357
23
8 38.92
8 38.80
6 4010.0
40 10.7
7.3480
8.181
246
3.25
23
5 1.2
358
23
8 42.19
8 42.07
639 47.7
39 48.5
7.3641
8.196
246
3.25
24
4 57.3
359
23
8 45.58
8 45.46
639 24.7
39 25.5
7.3794
8.210
246
3.25
25
4 53.4
360
23
8 49.09
8 48.96
639 1.0
39 1.8
7.3941
8.224
246
3.24
26
4 49.5
361
23
8 52.72
8 52.58
6 3836.5
3837.4
74082
8.237
245
3.24
27
4 45.7
362
23
8 56.46
8 56.32
63811.3
38 12.2
7.4217
8.249
245
3.24
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4 41.8
363
23
9 0.32
9 0.18
6 37 45.4
37 46.3
7.4346
8.261
245
3.23
29
4 37.9
364
23
9 4.29
9 4.15
63718.8
37 19.7
74472
8.273
2.44
3.23
30
4 34.0
365
23
9 8.38
9 8.23
6 36 51.5
36 52.5
7.4594
8.283
2.44
3.22
31
4 30.2
366
23
9 12.58
9 12.43
636 23.6
36 24.6
74713
8.293
2.44
322
32
4 26.3
367
23
9 16.90
9 16.75
—635 55.0
35 56.0
+74829
+8.302
+ 243
+ 3.21
350
PLANETS, 1855.
HORIZONTAL PARALLAXES AND SEMIDIAMETERS.
Dau.
HOUZONTAL PARALLAX.
VERTICAL SEMIDIAMETER.
SID. TIME OF SE.MIDIAMETER
PASSING THE MERIDIAN.
9
9
s
9
9
i
9
9
S
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H
a
If
N
H
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1
6.18
5.04
3.81
240
5.00
2.25
0.18
0.35
0.17
6
6.07
5.05
3.80
2.36
5.01
2.24
0.17
0.35
0.16
11
6.01
5.06
3.78
2.34
5.02
2.23
0.17
0.35
0.16
16
6X)1
5J0S
3.76
2.34
5.04
2.22
0.17
0.34
0.16
21
6.08
5.10
3.74
2.36
5.06
2.21
0.17
0.34
0.15
26
6.22
5.13
3.72
242
5.09
2.20
0.17
0.34
0.15
31
6.47
5.16
3.71
2.52
5.12
2.19
0.18
0.35
0.15
36
6.86
. 5.19
3.70
2.67
5.15
2.18
0.18
0.35
0.15
41
7.51
5.22
3.69
2.91
5.18
2.17
0.20
0.34
0.15
46
8.45
5.26
3.68
3.27
5.22
2.16
0.22
0^
0.15
51
9.78
5.30
3.66
3.79
5.26
2.16
0.25
0.34
0.15
56
1M2
5.35
3.64
4.43
5.31
2.15
0.29
0.35
0.15
61
13.00
5.40
3.63
5.05
5.36
2.14
0.34
0.35
0.15
66
13.85
546
3.61
5.39
5.42
2.13
0.36
0.36
0.15
71
13.73
5.52
3.60
5.34
5.48
2.12
0.36
0.36
0.15
76
12.92
5.59
3.59
5.03
5.55
2.12
0.34
0.37
0.15
81
11.84
5.67
3.58
4.61
5.63
2.11
0.31
0.38
0.15
1 86
10.85
5.75
8.57
4.22
5.71
2.10
0.28
0.38
0.15
91
9.94
5.84
8.56
3.87
5.80
2.10
0.25
0.39
0.15
96
9.16
5J3
3.55
3.57
5.89
2.09
0.24
0.39
0.14
101
8.50
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3.54
3.31
5.99
2.09
0.22
040
0.14
106
7.94
6.14
3.53
3.09
610
2.08
0.21
041
0.14
111
747
6.26
3.52
2.91
6.22
2.08
0.19
0.43
0.14
116
7.08
640
3.52
2.76
6.36
2.07
0.18
045
0.14
121
6.77
6.55
3.51
2.64
6.50
2.07
0.18
047
0.14
126
6.56
6.71
3.50
2.55
6.66
2.07
0.17
048
0.14
131
6.48
6.88
3.50
2.52
6.83
2.06
0.18
049
0.14
136
6J^5
7.07
3.50
2.55
7.02
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0.18
0.51
0.15
141
6J0
7.27
3.49
2.65
7.22
2.06
0.19
0.52
0.15
146
7.24
749
3.49
2.83
744
2.06
0.21
0.54
0.15
151
7.83
7.73
349
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7.68
2.06
0.23
0.55
0.15
156
8.62
8.00
349
3.37
7.94
2.06
0.25
0.56
0.15
161
9.51
8.29
3.50
3.72
8.23
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0.27
0.58
0.15
166
10.55
8.61
3.50
4.13
8.55
2.06
0.30
0.59
0.15
171
11.71
8.96
3.50
4.58
8.90
2.07
0.33
0.61
0.15
176
12.91
9.34
3.51
5.04
9.27
2.07
0.36
0.62
0.15
181
um
9.76
3.52
5.48
9.69
2.07
0.38
0.65
0.15
186
14.84
10.23
3.53
5.78
10.16
2.08
0.40
0.67
0.15
191
15.04
10.74
3.54
5.85
10.67
2.09
041
0.70
0.15
196
14.45
11.31
3.55
5.62
11.23
2.09
0.39
0.73
0.16
201
13.30
11.95
3.57
5.15
11.87
2.10
0.36
0.77
0.16
206
11.80
12.67
3.59
4.55
12.58
2.11
0.32
0.81
0.16
211
10.29
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3.60
3.96
13.36
2.12
0.28
0.87
0.16
216
8.94
14.36
3.62
3.45
14.26
2.14
0.25
0.92
0.16
221
7.89
15.35
3.65
3.35
15.24
2.15
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0.98
0.16
226
7.13
1647
3.67
2.76
16.36
2.17
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1.05
0.16
231
6.65
17.75
3.70
2.57
17.63
2.19
0.18
1.14
0.16
236
6.36
19.18
3.73
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2.21
0.17
1.24
0.16
241
6.24
20.78
3.77
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20.66
2.23
0.16
1.35
0.16
246
6.23
22.54
3.80
2.42
22.38
2.24
0.16
1.47
0.16
251
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3.85
2.45
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2.27
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1.60
0.16
256
640
26.34
3.89
2.50
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2.29
0.17
1.73
0.16
261
6.60
28.14
3.94
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27.94
2.32
0.17
1.84
0.16
266
6.82
29.64
3.99
2.67
29.43
2.35
0.18
1.94
0.17
271
7.14
30.57
4.05
2.86
30.36
2J39
0.19
2,00
0.17
276
7.56
30.76
4.11
2.96
30.55
2.42
0.20
1.99
0.16
281
8.10
30.18
4.17
3.18
29.97
2.46
0.22
1.95
0.17
PLANETS, 1855.
351
6*-
HOHIKONTAL PARALLAX, 1
VTiRTlCAL SEMIOIAMETEIi 1
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0.74
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10.83
6.31
2,31
10.75
3.69
0.17
0.71
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352 SUN'S COORDINATES, 1855.
Dat*.
1855.
RICTANGUULR EQUATORIAL.
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Dau.
1855.
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358 33
30 J3
31.4
0.47
83848
19.5
.9962924,2925
.0150746
0697
.0065443 5416
359 3
18.0
19.1
0.41
84459
20.0
.9965374' 5376
—.0071567
1520
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3.59 33
5.1
6.2
0.35
85069,
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+.996707717078
+.0007614
7660
+.0003289' 3309
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51.7
52.8
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985679
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.99680321 8032
.0086792
6837
.0037655
7672
0 32
37.6
38.6
0.22
86289
21.5
.99682371 8237
.0165961
6005
.0072017
2030
1 2
23.0
24.0
0.15
86898,
22.0
.9967694' 7694
.0245113
5156
.0106371
6381
1 32
7.9
8.8
0.08
87507
22.5
.9966406 6406
.0324244
4286
.0140716
0723
2 1
52.2
53.1
—0.01
88116
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-I-.9964375I 4374'+.04a3349
3390
+.0175050
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2 31
35.9
36.7
+0.05
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23.5
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.0209369
9368
3 1
19.1 1 19.8
0.11
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24.0
.9958080 8080 ' .0361455 1494
.0243671
3665
3 31
1.7, 2.3
0.17
89944
24.5
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.0277953
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4 0
4.3.8 44.4
0.23
90554,
25.0
.9948816^ 8816' .0719380: 9416
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4 30 25.2 25.8
0.28
91164
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5 0
6.1' 6.6
+0.33
991775.
26.0
.9936589 6590' .0877075, 7109 .03806541 0633
5 29
46.3 46.7
0.37
92386'
26.5
.9929370 9372' .0955823; 5855
.0414829 4804
5 59
26.0! 26.4
0.40
92998
27.0
.9921414 1417 .1034495' 4. ^27
.0448972' 8944
6 29
5.0 5.4
0.43
93611
27.5
.9912724 2727 .1113087, 3118 .04830811 3049
6 58
43.5 43.8
0.45
94225
28.0
+.9903300' 3304 +.1191594; 1624 +X)5I7I53
7116
7 28
2I.4I2I.6
+0.47
994840
28.5
.9893144 3149, .12700110039 .0551185
1145
7 67
58.8 58.9
0.47
95456
29X)
.9882255 2262| .1348331 ai58 .0585175 5132
8 27
35.6 35.7
047
96074
29.5
.9870638 0646' .1426549,6575 .0619120 9072
8 57
11.9 11.9
0.46
96693
30J0
.9858291 ; 8300J .1504661 '| 4686 .0653017
2966
9 26
47.5147.6
0.44
97313 1
30.5
+.9845217" 5228; +.1582660 2683 +.0686865
6810
9 56
22.7 1 22.6
+0.41
997934'
31.0
.9831418 1430| .16605410563' .0720661
0606
10 25
57.2 57.1
0.38
98557
31.5
.98168971 69111 .1738298 8318
.0754403
4342
10 55
31.3 31.1
0.34
99181 1
Apr. IJO
.9801652 1668 .181.5926 5945
i)788090! 8023
11 25
4.81 4.7
0.30
99806
1.5
.9785686; 5704 1 .1893421 3438
.08217181 1649
11 54
37.9,37.7
0.25
O00432
2j0
+.9769000, 9020 +.1970776 0792!+i)855286| 5214
19 24
10.3
1 0.0
+0.19
901060
SUN'S COORDINATES, 1855. 355
Date.
1855.
RECTANOULAR EQUATORUL.
POLAR ECLIPnC. Ii
X.
J?.
T.
V.
Z.
Z'.
X^
= ©»8
Xf
a=o'8
LogRad.
True Lotigiiude.
Latitude.
Vect.=p
Apr. 2.5
-h.975l598
1619
+.2047987
8001
+.0888792
8716
li
1
53
42.3
4L9
+0.13
9.9
001689
8.0
.9733477
3502
.2125050
5063
.0922232
2153
13
23
13.8|l3.3
0.07
02320
8.5
.9714641
4668
.2201958
1970
.0955605
5523
13
52
44.8,44.3
+0.00
02952
4.0
.9695091
5121
.2278705
8716
.0988903
8821
14
22
15.4 14.8
—0.06
03585
4.5
.9674830
4862
.2355286
5297
.1022139
2049
14
51
45.5
44.9
0.12
04219
5.0
-♦-.9653856
3893
+.2431697
1705
+.1055297
5203
15
21
15.1
14.4
—0.19
004853
5.5
.9632174
2214
.2507932
7938
.1088379
8282
15
50
44.2
43.5
0.24
0.'i487 1
6.0
.9609784
9826
.2583984
3990
.1121381
1280
16
20
12.9
12.1
0.31
06122
6.5
.9586685
6729
.2659849
9855
.1154302
4197
16
49
41.1
40.3
0.37
06757
7.0
.9562878
2925
.2735525
5529
.1187140
7032
17
19
8.9
8.0
0.43
07392
7.5
+.9538367
8417
+.2811003
1005
+.1219892
9781
17 48
36.3
35.3
—0.48
008027
8.0
.9513156
3210
.2886276
6277
.1252557
2442
18
18
3.3
2.3
0.53
08661
8.5
.9487245
7302
.2961340
1340
.1285133
5015
18
47
29.8
28.8
0.57
09294
9.0
.9460635
0696
.3036191
6190
.1317616
7493
19
16
55.9
54.8
0.60
09927
9.5
.9433329
3393
.3110822
0820
.1350002
-.9875
19
46
21.6
20.5
0.63
10558
10.0
-h.9405329
5396
+.3185228
5225
+.1382291
2161
20
15
46.8
45.6
—0.65
011189
10.5
.9376635
6707
.3259402
9398
.1414481
4347
20
45
11.6
10.4
0.66
11818
11.0
.9347251
7327
.3333340
3334
.1446568
6431
21
14
35 9
34.6
0.66
12446
11.5
.9317177
7257
.3407035
7027
.1478550
8410
21
43
59.8
58.4
0.66
13071
12.0
.9286417
6501
.3480482
0473
.1510425
0282
22
13
23.3
21.8
0.65
13695
12.5
+.9254971
5059
+.3553676
3666
+.1542190
2042
22
42
46.3
44.8
—0.63
014316
13.0
.9222845
2937
.3626611
6600
.1573843
3692
23
12
8.9
7.3
0.61
14935
13.5
.9190042
0139
.3699280
9268
.1605382
5228
23
41
31.0
29.3
0.58
15551
14.0
.9156562
6662
.3771678
1665
.1636804
6647
24
10
52.7
51.0
0.54
16166
14.5
.9122405
2510
.3843801
3787
.1668107
7947
24
40
13.9
12.2
0.49
16776
15.0
+.9087575
7684
+.3915643
5628
+.1699288
9124
25
9
34.7
32.9
—0.43
017385
15.5
.9052076
2189
.3987198
7182
.1730344
0177
25
38
55.0
53.1
0.38
17989
16.0
.9015913
6030
.4058460
8443
.1761274
1104
26
8
14.8
12.9
0.32
18592
16.5
.8979090
9212
.4129424
9407
.1792075
1902
26
37
34.1
32.2
0.26
19191
17.0
.8941607
1734
.4200086
0068
.1822744
2568
27
6
53.0
51.0
0.19
19788
17.5
+.8903467
3598
+4270441
0421
+.1853279
3101
27
36
11.4
9.4
—0.12
020382
18.0
.8864673
4808
.4340481
0461
.1883679
3497
28
5
29.3
27.2
—0.05
20971
18.5
.8825231
5369
.4410201
0180
.1913940
3754
28
34
46.7
44.6
+0.02
21557
19.0
.8785142
5287
.4479595
9572
.1944059
3870
29
4
3.5
1.3
0.08
22141
19.5
.8744412
4562
.4548659
8636
.1974035
3842
29
33
19.8
17.5
0.15
22721
20.0
+.8703045
3199
+.4617389
7364
+.2003865
3669
30
2
35.6
33.2
+0.21
023299
20.5
.8661043
1202
.4685779
5754
.2033547
3348
30
31
50.9
48.4
0.27
23874
21.0
.8618412
8574
.4753824
3797
.2063080
2878
31
1
5.6
3.1
0.32
24446
21.5
.8575153
5322
.4821518
1490
.2092461
2257
31
30
19.8
17.3
0.37
25015
22.0
.8531271
1445
.4888858
8828
.2121688
1481
31
59
33.4
30.8
0.42
25582
22.5
+.8486769
6949
+.4955839
5808
+.2150758
0548
32
28
46.5
43.8
+0.46
026146
23.0
.8441653
1837
.5022456
2425
.2179670
9457
32
57
59.1
56.4
0.49
26709
23.5
.8395926
6116
.5088706
8674
.2208421
8205
33 -27
11.2
8.4
0.51
27269
24.0
.8349592
9788
.5154584
4551
.2237010
6791
33
56
22.6
19.8
0.52
27827
24.5
.8302656
2856
.5220086
0051
.2265436
5214
34
25
33.5
30.6
0.53
28383
25.0
+.8255121
5326
+.5285206
5170
+.2293697
3472
34
54
43.9
40.9
+0.54
028937
25.5
.8206991
7201
.5349942
9905
.2321791
1563
35
23
53.8
50.7
0.53
29490
26.0
.8158268
8484
.5414290
4252
.2349715
9485
35
53
3.2
0.0
0.52
30041
26.5
.8108958
9179
.5478244
8205
.2377469
7236
36
22
12.1
8.9
0.49
30591
27.0
.8059064
9291
.5541801
1761
.2405050
4814
36
51
20.5
17.2
0.46
31139
27.5
+.8008590
8822
+.5604955
4914
+.2432455
2217
37
20
28.4
25.1
+0.43
031686
28.0
.7957542
7779
.5667704
7662
.2459684
9444
37
49
35.8
32.4
0.39
322.12
28.5
.7905922
6165
.5730043
0001
.2486736
6493
38
18
42.7
39.2
034
32777
29.0
.7853733
3982
.5791970
1927
.2513608
3362
38
47
49.2
45.7
0.29
33320
29.5
.7800980
1234
.5853480
3435
.2540298
0050
39
16
55.2
51.6
0.23
33S62
30.0
+.7747666
7925
+.5914565
4521
+.2566805
6555
39
45
60.7
57.0
+0.17
034402
30.5
.7693796
4060
.5975225
5181
.2593127
2874
40
15
5.8
2.0
0.11
34941
May 1.0
.7639374
9644
.6035457
5412
.2619262
9006
40 44
10.4
6.5
+0.04
35479
1.5
.7584405
4680
.6095254
5208
.2645208
4950
41
13
14.6
10.7
—0.03
36016
2.0
.7528891
+.7472838
9172
.6154613
4566
.2670965
070i
41
42
18.3
14.3
0.09
36552
2.5
3124
+.6213531
3483
+.2696530
6266
42
11
21.6
17.5
—0.16
037086
350 SUN'S COORDINATES, 1855.
Dsta.
1855.
RECTANGULAR EQUATORIAL.
POLAR ECLIPTIC. ||
X.
X'.
Y.
Y*,
Z.
Z'.
TrueLotiiritude.
X'
Latitude.
l»fIUd-|
May 3.0
3.5
4-.7416249
6541
-♦..6272004
1956
+.2721902
1636
o
42
1
40
u
24.5
2o!3
-o'.88
9.9
037619
.7359127
9424
.6330028
:9979
.2747079
6811
43
9
27.0
22.7
0.28
38151
4.0
.7301475
1778
.6387600
7551
.2772061
1791
43
38
29.1
24.8
0.34
38681
4.5
.7243298
3606
.6444716
46do
.2796846
6574
44
7
30.9
26.5
0.39
39209
5.0
.7184599
4913
.6,501372
1323
.2821431
1157
44
36
32.3
27.8
0.43
39736
5.5
-h.7 125382
5702
-h.6557563
7512
+.2845815
5538
45
5
83.3
28.7
-047
040260
6.0
.7065652
5977
.6613286
3234
.2869995
9717
45
34
34.0
294
0.51
40783
6.5
.7005413
5743
.6668537
8486
.2893971
3690
46
3
344
29.7
0.54
41302;
7.0
.6944667
5002
.6723313
3262
.2917741
7458
46
32
344
29.7
0.56
41820
7^
.6883419
3760
.6777608
75.56
.2941303
1018
47
1
34.1
29.3
0.57
42334
8.0
-♦•.6821673
2019
+.6831418
1365
+.2964655
4369
47 SO 33.5
28.6
-0.58
042845
8.5
.6759433
9785
.6884741
4687
.2987797
7508
47
59
32.6
27.6
0.58
43353
9.0
.6696705
7061
.6937573
7520
.3010725
0434
48 28
314
264
0.58
43858
9^
.6633492
3854
.6989909
9856
.3033437
3145
48
67
29.9
24.8
0.56
44358
10.0
.6569800
:0167
.7041744
1691
.3055933
5639
49 26
28.0
28.8
0.54
44856
10.5
-4-.6505634
6006
+.7093073
3081
+.3078211
7915
49 65
25.8
80.5
—0.51
045349
11.0
.6440998
1374
.7143894
3841
.3100269
:9972
50
24
23.2
17.8
047
45838
11.5
.6375896
6277
.7194203
4149
.3122104
1605
50
53
20.3
14.8
042
46323
12.0
.6310333
0719
.7243996
3943
.3143716
3415
51
22
17.1
11.5
0.37
46803
12.5
.6244314
4705
.7293271
3218
.3165103
4800
51
51
136
7.9
0.38
47278
13.0
-h.6l77842
8238
+.7342024
1971
+.3186263
5959
52
20
9.8
4.0
—0.86
047750
13.5
.6110923
1324
.7390249
0196
.3207195
6889
52 47
65.7
59.9
0.20
48216
14 0
.6043565
3970
.7437943
7891
.8227897
7589
53
17
61.2
55J5
0.13
48678
14.5
.5975771
6181
.7485103
5051
.3248367
8058
53
46
564
50.5
-006
49135
15.0
.5907547
7962
.7531725
1673
.3268603
8293
54
15
51.2
45.8
+0.02
49586
15.5
-4-J»838898
9318
+.7577806
7754
+.3288604
8292
54
44
45.7
39.6
+OXW
050032
16.0
.57698*29
•0254
.7623343
3290
.3308368
8055
55
13
39.8
33.6
0.15
50473
16.5
.5700347
0776
.7668331
8280
.8327895
7580
55
42
33.6
27.3
022
50909
17.0
.5630456
0889
.7712768
2718
.3347181
6866
56
11
27.0
20.6
0 28
51340
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.5560159
0595
.7756651
6602
.3366229
5911
56
40
20.1
13.6
0.34
51765
18.0
+.5489461
9901
+.7799978
9929
+.3385035
4716
57
9
12.8
6.8
+040
052185
18.5
.5418369
8816
.7842745
2696
.3403597
3277
57
37
65.2
58.6
045
52600!
19.0
.5346894
7346
.7884948
4899
.3421914
1594
58
6
57.2
50 Jy
0.50
53009
19.5
.5275040
5496
.7926585
6536
.3439985
9665
58
35
48^
48.1
0.54
53413
20.0
.5202811
3272
.7967653
7605
.8457809
7487
59
4
40.0
33.8
0.57
53813
20.5
•I-.5130212
0677
+.8008149
8102
+.3475384
5060
59 33
30.8
23.8
+0.60
054809
21.0
.5057251
7720
.8048070 8024
.3492710
2386
60
8
21.2
14.3
0.62
54598
21.5
.498.3933
4406
.8087415 7370
.3509786
9460
60
31
11.2
4.1
0.63
54984
22.0
4910264
0741
.8126181' 6137
.3526610
6283
60
59
60.8
53.7
0.63
55366
22.5
.4836247
6728
.8164366, 4322
.3543181
2853
61
28
50.0
48.7
0.63 55743 1
23.0
-h.4761888
2374
+.8201968 1925
+.85.59499
9171
61
57
38.9
31.5
+0.62 056116
23.5
.4687194
7683
.82389841 8943
JI575562
5233
62
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274
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0.60
56484*
84.0
.4612169
2662
.8275414
5374
JI591370
1040
62
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15.5
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56848,
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.4536820
7316
.8311255
1217
.3606922
6591
63
23
63.3
55.6
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25.0
4461152
1651
.8346505
6468
.3622217
1886
63
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50.7
48.9
0.50
67566
25 5
4.4385170
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358 SUN'S COORDINATES, 1855.
1855.
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SUN'S COORDINATES, 1855. 359
Dftte.
1855.
RECTANGULAR EQUATORIAL.
POLAR ECUPnc. []
X.
X'.
Y.
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+.3082000
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True Longilude.
V
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Log R«d.
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2262
1947
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130
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360 SUN'S COORDINATES, 1855.
Iku.
1855.
RECTANGULAR EQUATORIAL.
POLAR ECUPTia 1
X.
X.
2740
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Y*.
Z.
Z'.
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SUN'S COORDINATES, 1856. 361
Date.
1856.
RECTANGULAR EQUATORIAL.
POLAR E
CUPTIC.
Laiiiud«.
-K)'80
X.
X'.
5615
Y.
Y*.
Z.
Z'.
Frue Longitude.
V
Log.Rad.
Vecl =zf
Oct 2.5
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189 25
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SUN'S COORDINATES, 1855. 363
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1855.
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364 HELIOCENTRIC COORDINATES.
MERCURY.
VENUS.
Dayafr.
beiin'g
ofJuitan
PerioiJ.
X.
Y.
Z.
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tude in
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239
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9.6239
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0.2145
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0.2936
9.8565
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0.1257
9.5962
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0.3089
0.5837
0J2831
9.8564
115 31.8
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9.5635
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0.3971
0.5358
0.2670
9.8564
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9.5292
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9.8564
131 46.2
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9.5007
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0.5482
0.4092
0.2194
9.8564
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0.2616
0.1313
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0.6082
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9.85731180 24.5
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9.6192
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9.8577; 188 28.9
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0.0482
9.8581 1 196 32.6
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0.6556
0.2890
0.0892
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242 54.0
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256 43:5
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0.4421
0.1651
9.8593
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270 35.9
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0.1985
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0.3217
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300 14.0
0.3109
0.6043
0.2533
9.8606
244 36.0
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252 33.5
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0.1001
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0.1200
0.6556
0.2886
9.8612
260 30.2
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0.2981
9.8615
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9.5164
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315 54.1
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8840
0.3414
0.2649
0.1081
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19 20.5
HELIOCENTRIC COORDINATES. 365
MERCURY.
VENUS.
Daya fr.
beffin'g
X.
Y.
Z.
IL"'
Longi-
tude in
X.
Y.
Z.
Log. of Long!-
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Orbit
239
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9.6283
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9.8600 27 194
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0.89501 0.1413
9.8596 35 19.1
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MARS.
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1.65335
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1.1579
0.51120.1753
57 46.2
3.95246
2.83023
1.31363
0.70206 321 43 49
8760
0.6827
1.2300
0.5474 0.1791
63 7.8
3.99804
2.77174
1.28962
0.70182 322 37 1
8770
0.5610
1.2916
0.5789 0.1828
68 23.9
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2.71260
1.26531
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1.3424
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4.08640
2.65283
1.24070
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78 40.2
4.12916
2.59243
1.21579
0.70113;
325 16 58
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0.1723
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0.6442 0.1934
83 40.9
4.17095 2.53143]1.19060
0.70090
326 10 24
8810
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1.4288
0.6559,0.1967
88 36.9
4.21177 2.46984
1.16514
0.70068
327 3 53
8820
—0.0953
1.4358
0.6626 0.1999
93 28.5
4.25160 2.40766
1.13941
0.70046
327 57 25
8830
0.2286
14322
0.6645 0.2029
98 16.0
4.29044 2.34491
1.11340
0.70024
328 51 1
8840
—0.3602
H-1.4I80
-H).6616 0.2058
102 59.7
4.32826,2.28161
1.08712
0.70003
329 44 39
8850
0.4893
1.3937
0.6539 0.2084
107 39.8
4.3650712.21777
1.06058
0.69982
330 38 21
8860
0.6149
1.3597
0.6415 |0J108
112 16.7
4.40086
2.15341
1.03380
0.69961
331 32 6
8870
0.7363
1.3162
0.6247 G.2129
116 50.7
4.43561
2.08855
1.00678
069941
332 25 54
8880
0.8528
1.2639
0.6037 '0.2148
121 22.1
4.46930
2.02319 0.97952
0.69921
333 19 44
8890
0.9635
1.2030
0.5787 0.2165
125 51.3
4.50193
1.95735 0.95203
0.69902
334 13 38
• 8900
i
—1.0678
-1-1.1343
4-0J>499J0.2180
130 18.5
4.53349 1.89106 0.92431
0.69883
335 7 35
^
366 HELIOCENTRIC COORDINATES.
MARS.
JUPITER.
Days fr
bMln'g
of/ulian
Period.
X.
Y.
z.
"^^
Loogi-
iudeia
X.
Y.
Z.
1W
tudein
Vect
Orbiu
Vecu
OrWu
2:W
8910
-1.1652
H-1.058(]
) 4-0.5174
k 0.2192
O 1
134 44.1
4.56398
1.82432
0.89638 0.69864
0 1 II
336 0134
8920
1.2549
0.9746
1 0.48H
» 0.2202^139 8.3
4.59388
1.75715
0.8682410.69846
336 55 37
8930
1.3365
0.8854
0.442(
} 0.2209
143 31.4
4.62168
1.68956
0.83989 0.69828
337 49 42
8940
1.4096
0.790S
> 0.400J
I 0.2214
147 53.9
4.64888
1.62157
0.81134 0.69810
338 43 50
8950
—1.4736
H-0.6891
-H).3564
[ 0.2216
152 16.0
4.67498
1.55319
0.78259 0.69793
339 38 00
SATURN.
URANUS.
Daysfr.
ofjulian
X.
Y.
Z.
W.of
Rad.
Longl.
tudeia
X.
Y.
z.
•Sd"'
ludein
Period.
~+~
Vecu
Orbiu
Vecu
Orbiu
239
+
+
O 1 II
+
+
+
0 1 If
8600
2.49250
8.05558
3.22953 0.95567
73 56 53
13.80164 12.90597 5.46639
1.29381 45 26 30
8620
2.37890
8.08166
3.24529 0.95559
74 41 39
13.74431 12.95283 5.48778
1.29374;45 39 58
8640
2.26488 8.10644
3.26054.0.95551
75 26 27
13.68672 12.99950:5.50907
1.29366 45 53 26
8660
2.1.5047 8.12991
3.27525 0.95544
76 1116
13.62887. 13.04598; 5.53029
1.2935946 6 54
8680
2.03569 8.15209
3.28944 0.95537
76 56 06
13.57080 13.00230 5.55143
1.2935146 20 22
8700
1.92062 8.17296
3.30309 0.95530 77 40 57
13.51253 13.1 3839 '5.57247
1.29344*46 33 51
8720
1.80525 8.19251
3.31620 0.95524,78 25 49
13.45409 13.18425,5.59338
1.29336 46 47 20
8740
1.68958 8.21073
3.32877 0.9551 8; 79 10 42
13.39546 13.22986 i 5.61421
1.29328 47 0 49;
8760
1.57368 8.22761
3.34081 0.95513 79 55 35
13.33664
13.27524 '5.63495
1.29321,47 14 19<
8780
1.45751 8.24318
3.35232 0.95508 80 40 29
13.27759
13.32040 5.65561
1.29313 47 27 48
8800
1.34107 8.25740
3^56327 0.95503 81 25 24
13.21832 13.36535|5.67618
1.29305 47 41 19 |
8820
1.22439 8.27030
3.37370 0.95498 82 10 20
13.15879
13.41015 5.69670
1.29298 47 54 49 !
8840
1.10750 8.28184
3^8357 0.95495
82 5516
13.09903
13.45476.5.71714
1.29290 48 8 20.
8860
0.99040 8.29206; 3.39290 0.95492
83 4013
13.03907
13.49919,5.73748
1.29282 48 21 51 1
8880
0.87316 8.30093
3.40169 0.95488
84 2510
12.97889
13.54341 5.75772 1 J9274 48 35 22
8900
0.75579 8.30846
3.40992,0.95486
85 1008
12.91853
13.58738 5.7778511.29267 48 48 54 |
8920
0.63831 a31465
3.41760 0.95483
85 55 06
12.85801
13.63109 5.79785
1.29259 49 2 26'
8940
0.5207518.31950 3.424710.95481
86 4004
12.79733
13.67459 5.81775 1.29251 49 15 58
8960
0.40312' 8.32302 3.43127 0.95480
87 25 03
12.73644
13.71789 5.83758,1.29243 49 29 31
NEPTUNE.
INCLINATIONS AND NODES.
For Julian Date S398600.
Daya fr.
bttin'g
X.
Y.
Z.
I^.of
Lwigi.
OfJulian
Rad.
Vecu
tudein
OrWU
Period
1/mfliode
ofA-cwd-
ingNude.
Incr.
in 100
Daya.
23a
8000
+
28.9524
6.7311
3.5061
1.47612
345 21.5
Plan-
eiR.
IiicUna- 1
Uoa.
ncfMAeln
100 Days.
8640
28.9834
6 6166
3 4599
1 47610 345 361
8680
8720
8760
29.0139
29.0439
29.0733
6.5019
6.3871
6.2723
3.4136
3.3672
3.3209
1.47609 345 50.7
1.47608,346 5.4
1.47606 346 20.0
Merc.
Ven.
Mani
0 1 II
7 0 8.5-
3 31 21.8 -
1 51 2.2 -
Hf.01947
H).01232
-0.00611
0 1 H
14 36 38
75 23 27
48 25 55
ir.649
9.004
7.600
8800
29.1021
6.1574
3.2745
M7605 346 34.7
Jupit.
1 18 40.3 -
-0.05632
98 59 13
9.990
8840
29.1304
6.0422
3.2279
1.47603
346 49.3
Sat
2 29 28.3 -
-0.03768
112 24 49 8.566!
8880
29.1582
5.9268
3.1813
1.47602
347 4J0
Uran.
0 46 29.7 -
H).0O834
73 15 45 1 4.898
8920
28.1855
5.8115
3.1346
1.47601
347 18.6 1
Nept
1 46 59.0
130 11 0'
LOOARITHMS OF MASSES.
Snn'f -= ].
Mercury, 93.3129 '
rhe Earth, 94.44812
Jupiter, 96.97968
9 Uranui, 95.60371
Venw, 94.4089 1
Mam. 93.57176
Saturn, 96.45573
Neptune, 95.72670
ECLIPSES, 1855.
367
ECLIPSES IN 1855.
In the year 1S55 there will be four Eclipses ; two of the Sun and two of the
iMoon ; viz, ; —
L A Total Eclipse of the Moon, May I, 1855, with the following elementi.
4- h. m. a.
Washington Mean Time of i in Right Ascension, May 1 10 49 10. L
Sun's Right Ascension
2 34 56.38
Hourly Motion
9.55
Moon^s Right Ascension
14 M 56.38
Hourly Motion
126.28
Sun's Declination
-f 15 11 32.0
Hourly Motion
+ Q 45.1
Moon^s Declination
— 15 1 24.4
Hourly Motion
— 13 lai
Moon^s Longitude
221 6 M.l
Hourly Motion
83 5.0
Moon''s Latitude
+ 9 38.2
Hourly Motion
— 3 3.2
Sun's Equa. Hor, Pan
8,5
True Semidiameter
15 5-1.1
Moon^s Equa. Hor. Par,
57 9.4
True Semidiameier
15 35,6
From these elements are deduced the following results : —
Moon enters the Penumbra at 8 2.4 Mean Time Washington.
Moon enters the Umbra 9 6.0 " **
Beginning of Total Eclipse 10 8,6 " **
Greatest Eclipse 10 5G.9 " '*
End of Total Eclipse 1145.2 " '*
Moon leaves the Umbra 12 47.8 " '*
Moon leaves the Penumbra 13 51.3 *' "
The first contact of the shadow with the Moon's limb occurs at 123** from its
northernmost point towards the cast, and the last contact at 75* towards the west
Magnimdo of the eclipse = L52& (Moon's diameter ^=1),
This eclipfse will be visible throughout South and Central America, on the
western coast of Africa, in Mexico, Canada, and a part of the United States. The
beginning of the eclipse will be visible ihroughoui Africa, most of Europe, and
the western part of Arabia ; the end will be visible throughout America, except
the northwestern extremity.
r
368
ECLIPSES, 1855.
II. A Partial Eclipse of the Sun, May 15, 1855, invisible at Washington, with||
the following elements ; —
J k _
U. U lU. 0.
Washington Mean Time of <J in Right Ascension, May 15 9 37 43.5.
Sun's and Moon's A. R. 3 29 7.57 Hourly Motions 9'!88 and 133.36
Sun's Declination + 18 56 48.2 Hourly Motion
+ d 35.2
Moon's Declination +20 4 56.1 Hourly Motion
4- 10 56.2
Moon's Longitude 54 55 18.3 Hourly Motion
33 2.7 1
Moon's Latitude + 1 6 5.0 Hourly Motion
+ 2 58.5 !
Sun's Equa. Hor. Par. 8.5 True Semidiaraeter 15 51.2
Moon's Equa. Hor. Par. 57 8.5 True Semidiameter 15 36.1
From these elements are deduced the following results.
1
Eclipse begins on the Earth generally, Nov. Ib^- 6*'' 54" .6, mean time at Wash-
ington, in longitude 203° 55' West of Washington, and latitude 25** 16' North.
Greatest eclipse at 8** 52'"*.9, in longitude 266° 16' West of Washington, and
latitude 62° 54' North ; magnitude (Sun's diameter = 1) 0.777.
Ends on the Earth generally, Nov. 15^* lO'* 51" .1, in longitude 337° 14' West
of Washington, and latitude 59° 56' North.
i;
h m. a. inenn.
Eclipse ends at Stockholm 15 59 23 * Magnitude at sunrise 2.02
« Upsala 15 58 33
3.94
" " Christiania 15 34 40 "
2.27
" « Pulkowa 16 43 30 "
5.68
" « Dorpat 16 28 27 **
« 3.89
« " Abo 16 15 52 "
" 3.82
DATA BY WHICH THE ECLIPSE MAY BE COMPUTED ]
FOR ANY PLACE
WITH THE GREATEST ACCURACY.
Waah.
M. Time.
A.
B.
c.
logE.
9.976
logF.
9.975
logo.
9':516
logH.
y
h. m.
9.504
O 1 w
6 50
-1.422011
-1-1.235226
-4-0.135161
5721
1959
6469
9279
103 28 12.5
6 55
1.379633
1.250483
0.150392
5700
1937
6640
9454
104 43 12.8
7 0
1.337254
1.265738
0.166621
5680
1916
6811
9630
105 58 13.2
7 5
1.294876
1.280990
0.180848
5659
1895
6981
9805
107 13 13.5
7 10
1.252496
1.296240
0.196073
5639
1874
7152
9981
108 28 13.9
7 15
1.210117
1.311487
0.211296
5618
1853
7323
•156
109 43 14.2
7 20
1.167736
1.326732
0.226516
5598
1832
7494
0331
110 58 14.6
7 25
1.125355
1.341974
0.241634
5578
1811
7665
0506
112 13 14.9
7 30
1.082972
1.357214
0.256950
5558
1790
7835
0681
113 28 15.3
7 35
1.040589
1.372451
0.272164
5538
1769
8006
0857
114 43 15.6
7 40
0.998204
1.387687
0.287377
5518
1748
8177
1032
115 58 16.0
7 45
0.955818
1.402920
0.302588
5498
1727
8347
1208
117 13 16.3
7 50
0.913433
1.418151
0.317796
5478
1706
8518
1383
118 28 16.7
7 55
0.871046
1.433379
0.333002
5457
1685
8687
1558
119 43 17.0
8 0
0.828659
1.448604
0.348206
5437
1665
8856
1734
120 58 17.4
8 5
0.786271
1.463827
0.363407
5417
1645
9025
1909
122 13 17.7
8 10
0.743883
1.479047
0.378605
5396
1624
9193
2085
123 28 18.1
8 15
0.701495
1.494265
0.393802
5376
1604
9361
2260
124 43 18.4
8 20
-0.659106 -4-1.509481
-4-0.408997
5356 1584
9529
2435
125 58 18.8
ECLIPSES, 1855.
369
W-h.
M-Timo.
A.
B.
o.
loffB.
lofF.
logG.
lofH.
/•
h. m
9.976
9.975
9.516
9.505
O / II
826
-0.616717
-1-1.524695
H-0.424190
5336
1564
9698
2611
127 13 19.1
8 30
0.574327
1.539906
0.439380
5315
1543
9866
2786
128 28 19.5
8 35
0.531937
1.555114
0.454567
5295
1523
♦034
2961
129 43 19.8
840
0.489546
1.570319
0.469753
5275
1503
0203
3136
130 58 20.2
8 45
0.447155
1.585521
0.484937
5255
1482
0371
3312
132 13 20.5
8 50
0.404764
1.600721
0.550118
5235
1462
0540
348"?
133 28 20.9
8 55
0.362373
1.615918
0.515296
5216
1441
0709
3661
134 43 21.2
9 0
0.319982
1.631114
0.530473
5196
1421
0878
3835' 135 58 21.6
9 5
0.277590
1.646306
0.545647
5177
1401
1048
4009137 13 21.9
9 10
0.235198
1.661496
0.560820
5157
1380
1217
4183J138 28 22.3
9 15
0.192806
1.676684
0.575990
5138
1360
1386
4357jl39 43 22.6
9 20
0.150414
1.691868
0.591157
5118
1340
1555
4531 140 58 23.0
9 25
0.108022
1.707050
0.606321
5099
1319
1725
4705 142 13 23.3
9 30
0.065629
1.722229
0.621484
5079
1299
1894
4879 143 28 23.7
9 35
-0.023236
1.737405
0.636644
5060
1279
2063
5053 144 43 24.0
9 40
H-0.019157
1.752579
0.651802
5040
1258
2232
5227 145 58 24.4
9 45
0.061549
1.767751
0.666959
5021
1238
2402
5401 147 13 24.7
9 50
0.103942
1.782920
0.682113
5002
1218
2571
5575 148 28 25.1
9 55
0.146335
1.798086
0.697264
4982
1197
2741
5750 149 43 25.4
10 0
0.188730
1.813251
0.712414
4962
1176
2912
59251150 58 25.8
10 5
0.231125
1.828412
0.r27561
4942
1156
3082
6100 152 13 26.1
10 10
0.273520
1.843571
0.742706
4922
1135
3253
6275153 28 26.51
10 15
0.315915
1.858727
0.757850
4902
1114
3423
645C
1 154 43 26.8
10 20
0.358310
1.873881
0.772992
4883
1093
3594
6622
155 58 27.2
10 25
0.400705
1.889032
0.788131
4863
1073
3764
680C
) 157 13 27.5
10 30
0.443101
1.904181
0.803269
4843
1052
3934
697S
> 158 28 27.9
10 35
0.485496
1.919327
0.818404 4823
1031
4105
715C
159 43 28.2
10 40
0.527891
1.934471
0.833537
4803
1011
4275
7325
► 160 58 28.6
10 45
0.570287
1.949612
0.848668
4783
0990
4446
750C
\ 162 13 28.9
10 50
-H).612683
-1-1.964751
-1-0.863797
4763
0970
4616
7675[163 28 29.3
CHANGES OF THB QUANTITIES IN THE *:
rABLB OF DATA.
WwhinnoQ
MaaoTiiiM.
For oiM Minute.
For one Second. ||
A.
B.
c.
A'. 1
BfandO'.
h. m.
6 50
-f-8475.6
-f-3051.4
H-3046.2
-+-141.26
-+-50.77
7 5
8476.0
3050.0
30450
141.27
50.75
7 20
8476.4
3048.6
3043.8
141.28
50.73
7 35
8476.8
• 3047.2
3042.6
141.28
50.71
7 50
8477.2
3045.6
3041.3
141.29
50.69
8 5
* 8477.6
3044.0
3040.0
141.29
50.67
8 20
8477.8
3042.6
3038.6
141.30
50.64
8 35
8478.0
3041.2
3037.2
141.30
50.62
8 50
8478.2
3039.6
3035.8
141.30
50.60
9 5
8478.4
8038.0
3034.4
141.31
50.57
9 20
8478.4
3036.4
3033.0
141.31
50.55
9 35
8478.5
3034.8
3031.8
141.31
50.53
9 50
8478.6
3033.2
3030.4
141.31
50.51
10 5
8478.8
3031.8
3029.2
141.31
50.49
10 20
8479.0
3030.2
3028.0
141.32
50.47
10 35
8479.0
3028.8
3021.8
141.32
50.45
10 50
-1-8479.0
H-3027.4
H-3024.6
^
-+-141.32
-4-50.41
47
370
ECLIPSES, 1855.
ECLIPSES, 1855.
371
ni. A Total EcUpsD of the Moon, October 24, 1855, with the foltowmg elements,
rl. h. m. a.
Washington Mean Time of ; in Eight A^ensioa, October 34 14 10 29.6,
h. in. Ji, « ■<
Sun*a Right Ascension 13 56 43.02
Hourly Motion
9.56
Moon's Right Ascension 1 56 43m
Hourly Motion
133,47
Sun's Declination — 1 1 56 48!o
Hourly Motion
^ 6 6'il
Moon's Declination +11 42 26.9
Hourly Motion
+ 15 39.8
Moon's Longitude 28 9 15.3
Hourly Motion
36 1L9
Moon's Latitude — 30 38.0
Hourly Motion
+ 3 20.0
Sun's Equa. Hor. Par 8.6
True Semidiameter 16 7.9
Moon's Eqim. Hor, Par. 59 45.8
True Semidiameter 16 19.2
From these elements are deduced the following results : —
Moon enters the Penumbra at 11
36.5 Mean Tim© Washington,
Moon enters the Umbm 12 35.7
41
Beginning of Total Eclipse 12 36.8 **
;
Greatest Eclipse 14 21,4
tt
End of Total EcUpse 15
6.0
u
Moon leaves the Umbra 16
LI
41
Moon leaves the Pen umbm 17
6.3
41
The first contact of the shadow with the Moon's limb occurs at SS'* from its
northernmost point towards the East, and the last contact at 104° towards the West*
Magnitude of the eclipse = L464 (Moon's diameter := 1).
Thia eclipse will be visible throughout Northern and Central America^ in the
northwestern portion of South America, a large portion of the Pacific Ocean, and
the northeastern extremity of Asia, The beginning of the eclipse wilt bo visible
in the western portions of Europe and Africa, and the end will be visible in Aus-
tralia and the eastern portions of Asia.
IV» A Partial Eclipse of the Sun» November 9, 1855, invisible at Washington,
of which the following are the elements : —
d h. m. «.
Washington Mean Time of 6 in Right Ascension, November 9 3 8 27.6,
Sun's and Moon's A.R»
Sun's Declination
Moon's Declination
Moon's Longitude
Moon's Latitude
Sun's Equa. Hor, Par.
14 57 42^95 Hourly Motions 10!08 and 125.96
— 16 53 55.3
-^18 11 15.4
227 15 57.0
— 1 14 7.7
8.7
Hourly Motion
Hourly Motion
Hourly Rfotion
Hourly Motion
True Semidiameter
True Semidiameter
— 6 42.9
— 11 52.0
32 3.9
— 2 651.4
16 11.8
15 21.5
Moon's Equa. Hor, Par. 66 14.6
From these elements are deduced the following results ; —
EcUpse begins on the Earth generally, November 9'' O*"- 28"^ .1, mean time at
Washington, ill longitude UT 39' West of Washington, and latitude 3^ 18' South*
372 ECLIPSES, 1855.
ECLIPSES, 1855.
373
Greatest eclipse
at 2" 9"* ,4
, in longitude 161* 52'
West of Washington, and|[
latitude 62'' 35,5 South; magnitude (Sun'a
diameter =
1) 0.492.
Eiidf
i on ihe Earth genemlly, November 9'*
3-50
" .9, in
longitude 270^ 56 II
' West of Washington, and laiitude 68^ 51^4 SouU
i*
DATA BY WHICH THE ECLIPSE MA^
' BE <
COMPUTED ]
FOE A^-r ri^vcE 1
WITH THE GHEATEST ACCURACY,
A.
B*
c.
kMjE
l«fF.
9798~
KG.
-9.46
bf ri.
-9.45
.
K m.
9.98
0 25
-1.33578
-0.27592
-1.39829
028
15:1
925
571
9 27^14' 5
0 30
L29493
0.29251
L4J486
028
153
927
573
10 42 14.6
0 m
L25408
0.30910
1.43143
028
153
929
575'
11 57 14.7
0 40
L21323
0.32569
1.44800
028
153
932
577
13 12 14.8
0 45
L 17239
0.31228
1. 46^158
027
153
934
579
14 27 M.9
0 50
1.13154
0,35887
1.48116
027
152
936
582
15 42 15.0
0 55
L09070
0.37546
1.49774
027
152
938
585
16 57 15 J
1 0
1.049H1
0.3^04
1.51430
027
152
940
587
18 12 15.2
1 5
1.00898
0.40862
1.53086
027
152
942
589
19 27 15,3
1 10
0MSi2
0.42520
1.54742
027
151
945
591
20 42 15.4
1 15
0.92726
0.44178
1.56399
026
151
948
594
21 57 15.5
1 20
0.9«640
0.45836
1.58055
026
150
951
598
23 12 15,6
1 25
0,S4554
0.47493
1.59712
026
150
953
600
24 27 15.7
1 30
0.&0467
0.49150
1.61367
026
150
955
602
25 42 15.8
1 35
0.76380
0.50807
1.63022
026
150
958
604
26 57 15.9
1 40
0.72293
0.52464
1.64677
026
150
960
607
28 12 16.0
1 45
1 0,6B206
0.54121
1.66332
025
149
962
609
29 27 16.1
1 50
0.64120
0.55777
L67987
025
149
964
611
30 42 16.2
1 55
0.60033
0.57433
1.69643
025
149
967
615
31 57 16.3
2 0
0.55946
0,59088
1.71297
025
149
969
617
33 12 16,4
2 5
0.51S59
0.60743
1.72951
025
148
971
€19
34 27 16.5
2 10
0.47772
0.62399
1.74605
025
148
974
621
35 42 16.6
2 15
0.43684
0,6405^4
1.76259
024
147
976
624
36 57 16.7
2 20 i
0.39597
0.65709
1.77913
024
147
978
627
38 12 16.8
2 25
0.35509
0.67366
1.79566
024
147
980
630
39 27 16.9
2 30
0.31421
0.69020
1.81218
024
147
982
632
40 42 17.0
2 35
0.27333
0.70674
1.82870
024
147
985
634
41 57 na
2 40
0.23215
0.72328
1.B4523
02;*
, 147
987
636
43 12 17,2
2 45
0,79157
0.7:J982
1.86175
023
146
990
639
44 27 17,3
2 50
0.15069
0.75637
1.87827
02:*
146
992
641
45 42 17,4
2 55
0 J 0981
0.77292
1.89480
022
146
994
6^41
46 57 17.5
3 0
0.06892
0.7K945
1.91131
022
146
996
646
48 12 17.6
3 5
-0.02803
0.S0598
1.92782
022
146
998
648
49 27 17.7
3 10
+0.01286
0.82251
1.94433
021
145
•00
650
50 42 17.8
3 15
0.05375
0.a3904
1.96084
021
145
003
653
51 57 17,9
3 20
0.09463
0,85558
1.97735
021
145
005
656
53 12 18.0
3 25
0 J 3551
0.87211
1.99387
020
145
008
658
54 27 18.1
330
0.17640
0.88863
2.01037
020
145
010
660
55 42 18.2
3 35
0.21729
0.90515
2.02687
020
144
012
662
56 57 18.3
3 40
I 0.25818
0.92167
2.04^137
020
144
015
664
58 12 18.4
3 45
0,29907
0.93819
2.05987
019
144
017
667
59 27 18.5
3 50
0.33a9e
0,95471
2.07636
019
144
020
670
60 42 18.6
3 55
+0.38086
-0.97124
-2,09285
019
144
022
673
61 57 1^,6
■ ■ V
374
ECLIPSES, 1855.
CHANGES OF THE QUANTITIES IN THE TABLE OF DATA.
Washinfton
MaanTiine.
infUM
TlnM
25
40
55
10
25
1 40
1 55
10
25
40
55
3 10
3 25
3 40
3 55
For oiM MIduu.
-+-817.0
817.0
817.2
817.2
817.4
817.4
817.4
817.6
817.6
817.6
817.8
817.8
817.8
817.8
H-817.8
—331.8
331.8
331.6
331.6
331.4
331.4
331.0
331.0
330.8
330.8
330.6
330.6
330.4
330.4
—330.4
—331.6
331.4
331.4
331.4
331.0
331.0
330.8
330.8
330.4
330.4
330.2
330.2
330.0
330.0
—330.0
For OfM Socond.
A'.
H-13.62
13.62
13.62
13.62
13.62
13.62
13.62
13.63
13.63
13.63
13.63
13.63
13.63
13.63
+13.63
B'andC.
—5.53
5.53
5.53
5.53
5.52
5.52
5.52
5.52
5.51
5.51
5.51
5.51
5.51
5.51
—5.51
OCCULTATIONS, 1855. 375
ELEMENTS FOR FAClLITATmG THE CALCULATION OF OCCULTATIONS f
OF PLANETS AJ^D STARS BY THE MUON, FOR THE YEAR IftSS
•
1
PumEJels.
Tinw «f
M Wuhic
gUfii Msan Tfmo of £ <
Dkifl.
SUr'tf Nunff.
ft
Nortlv
em.
urn.
H
F i
' y
f
+9.6421
9.9536]
IM. t
135 Tatid
0
-h57
— 9
I 9.7
ki. ni. fl
'- 9 37 46
+0.2268
0*5500
+.0693
13S Tauri
54
4-^0, -his
9 20.2
— 1 44 IO,-KJ-5860
.5512
+ .0502
+9.6490
,9519
47 Oemmor
6
+2a —37
18 M
+ 5 36 6
-0^559
.5500
-^.0302 +9.6536
.9508
u G(.M[iinor,
— 17
-63
5 15.3
— 7 19 46
-0.9699
.5466
-,0563; +9.6471
.9524
c Gtjmjaor.
4-43
—20
9 17
- 341 5
+0,0091
.5453
-.0655 +9.6439
.95321
a** CuncH
-hS2
—32
16 46.4
+ 3 48 a
—0.1865
.5479
— .0«13 +t.6359
,9591
^ CfinL-ti
^ 1
-64
21 11.9
+ 8 4 39
—07444
.54a't
-0923 +9.63*14
.9563
jt Cancri
+71
— 2
1 56.9
^11 19 47
+0.4273
.5382
-^,10;f9' +9.6237
.9577
ir* CiiTH^ri
-hlO
-37
7 7.6
— 6 19 16
--0.23O5
.5359
—.1133
+ 9.61.54
.9595
i Cancri
+17
—55
1 24.U
+ 1122 4
—0.4674
,5267
-4477
+9.5775
.9665
79 Cuncri
+1G
-55
1 53.1
-hll 50 18
-04864
.5260
— J494 +9.5763
.9667
B.Ar.3138
+90+3^
3 :j(}.G
-10 35 15
+ 1.1625
Ji219
-.1512 +9JS906
.9642
t> Leon is
rj4
+56 -2:i
G43.4
-8122
+0.2,TI2
.5118
— .19271+9.4823
.9790
42 Lconis
+90|- 4
U 191
— 0 49 46
-f-0,6797
.5080
— .2(^29 : +944 S7
.98;^1
B.AX\ 357&
+84 — 5
IS 0.0
H- 2 44 44
+ 0.6146
.5(J75:
— .2fJ76
+94153
.9848
1 Lc^nli
+71
— 13
19 47.4
+ 4 29 2
+04666
.5069
-.2087
+9.4096
.9852
k Leonw
^32
—75
3 22 1
+tl 50 44
— 1.2379
^002
— J173
+94 11 J?
.985l»
r ViTKinia
4^
4-25 ^60
1 1 444
— 4 4119
—0.3379
.4945
—.2423
+9.1065
.9964
B^.C3996
+90 — 6
13 32.2 — a 56 29
+0,6934
.4953
—.24.15
+9.0192
.9976
6 Virginia
5
+90+ 7
19 29 5
H- 3 50 54
+0.9124
4957
-,2467
+8 8911
9.9987
9
i' Virgins
n
-h86
— 5
1
18 22.5
+ T 551
-1-0,7298
4968
—,25.30
— 8.{>570
OAhMM}
9
B,A.C. 4277
6
+gl
-n
19 23.3 + 2 4 56
+0.6053
4970
-2532
-8.1316
0 00l^>
10
k ViT^'ims
6
H-&7
+ 1
4 2.5| + 10 2y36
+0.8,350
4996
— .2.')36
—8.7226
9 9994
10
4« Virpnh
G
-M8 — 3«|
G 19.2 -n 1736
+0,0997
,5^)04
—,2535
-8,7014
,9994
LO
1 Virgmbt
**
+85
+36
9 3L9
— 8 10 20
+1J3047
.50(J7
^.2531
-8.9193
,8985,
10
65 Vin^rinb 6
«-21
^90
16 36.7
— 1 1748
-1.1254
.5052
— 2519
«^e.8610
J989
10
66 Vifi^inis '6
— 14
—90
17 14.7
— 0 40 53
-1.0283
.5059
*-.2517
—8.8852
,9987
10
/* Vit^rinn e
— 2 —90
21 8.1
-h 3 5 44
'0.8287
.5080
-,2506
— 8.D820
,9980
11
;il VirKinU
44
-1-77 -l-JO
21 yi.^
+ a 723
+03539
.5208
—2325
-9-34211
.9892
U
2 LibriB
6
—39
—90
23 0.6
+4 1121
-1^1832
.5277
—.2361
-9.2825
.9919
12
5 LihriD
6
+48
—.12
9 42.S
- 9 27 3
+0.2077
,5331
— J263
'9.4086
.9852
12
8 Libriie
B
+52'- 28
1 1 54,4
— 7 19 48
+0.2784
,5357
—.2235
-94239
.9842
IS
tf Lib™
H
-1-53: -27
12 04
^ 7 13 59
+0.1^>52,
.5.-360
- .2233
-9.4252
.9841
ts
►^ LibrsG
5
-2O|-90
19 14.3
— 0 14 35
—1.01271
.5464
-.2143
-94.^121
.98.15
13
28 Libm
6
+ 16
-64
1 35.8
+ 5 53 51
—0.3484
.5531
— J2057
—94813
.9791
U
41 Librn
6
— S
—90
9 26.0
—10 32 31
—0.6850
.5607
—.1929
—9.5087
.9761
13
j« Libr^
5
+ 5
—78
[0 44,3
— 9171
— 0Ji4l4
.5608
—.1910
-93071
.9751
13
X Llbrai
G
—17
-9<J
15 33.5
— 4 38 25
—0^995
.5678
-.1818
-9.5284
.9737
13
B.A.C, 5281
,6
-1-lOi -68
17 29.1
— 2 47 6
-0.4029
.5685
-.1760
—9^455
.9714
13
a Scorpii
H
+68 +24
19 25.6
— 1 62 38
+1J061
.5639
—.1760
—9.5774
.9666
13
di* Si>orpu
^
—3a — *>0
21 23.4
+ 0 58 29
-1.1652
.5764
-.1699
-9.5438
,9717
13
iB.A.C. &S95 6
-^27' ^yo
2357.3'+ 3 26 35
—1,0.301
.57921— .1634
—9.5549
.9701
U
§ Oijljiuchi 'a
JP Ophmchi 6
+45 —25
4 42.7
H- 8 0 58
+0.11 9B
.5772
^.1543
-9,5938
,9637
H
+391—29
14 11.7
— 6 52 30
+0.2507
,5886
—.1296
-9.6157
.95941
14
B.A.a5709 6
+33
-29
jl9 7J
^3 6 32
+0.2519
.5924
—1189
—9.62.18
.9577
' U
aeOphiuohi fl
+32
-as
18 11.6
— 3 217
+0.1385
,5929
—.1189
-9.6221
.9581
U
A Oj*bitichi 5
+64 +28
23 57.1
+ 2 29 o;H- 1.1146
.5939
—.1019
^9,6477
.9522
15
39 0&Kiachi 5^1
t Ophiuchi *1-i
—55—90
0 58.9
H- 3 28 14—1.2457
.6066— .0990
-9.6114
.9603^
15
—12 -^m
2 27^
-h 4 52 59
— 0.6648
.6042 —.0961
-9.6235
.9578
15
B.A.C. 6I&454
-1-31 —28
21 52,8
— 034 16
+0.2560
0.61351-^23
—^.6584
9.9496
376 OCCULTATIONS, 1855.
1 RLBMBNT8 FOR FACILITATING THE CALCULATION OF 0CCULTATI0N8
OF PLANETS AND STARS BY THE MOON, FOR THE YEAR 1865
1
Umiiinf
PwaUels.
Wash-
in gtoa
ivfeaa
Time of
i-
Dat«.
Star's Name.
1
44
North-
ern.
South,
ern.
H
Y
P^
q'
ix^^ln
"^/T
Jan. 18
t Cipricor.
o
4-29
o
-46
h in.
23 24.7
h. m. s.
— 2 10 15
-0.0634
0.5879
4-.1948
-9.6365
9.9727
19
X Caprioor.
5
-1-22
-55
1 36.3
— 0 353
—0.2076
.5887
4-.1992
—9.5241
.9743
19
56 Aqaarii
6
-1-32
—48
21 22
— 5 22 46
—0.0960
.5687
4-.2353
-94221
.9843'
20
T» Aquarii
6
4-75
4-26
4 26J)
4- 145 7
4-1.1825
.5595
4-.2447
—94079
.9853'
20
t' Aqaarii
4
-h76
4-07
5 15.2
4- 3 32 15
4-0.9237
.5590
4-.2459
-9.3944
.9862
20
74 Aqaarii
6
-»- 6
—83
6 56.6
4- 4 9 59
—0.6131
.5605
4-.2425
—9.3315
.9898
20
If/' Aquarii
44
-h 8
-84
16 46.2
—10 21 18
—0.6259
.5537
4-.2573
-9.2344
.9935
20
1/^ Aqaarii
44
-1-25
—59
17 41.5
- 9 27 52
—0.2910
.5523
4-.2581
—9.2387
.9934 <
20
M^ Aqaarii
5
4-54
—29
18 9.5
— 9 052
-H).2577
J>502
-h.2589
—9.2568
.9928 .
21
27 Pisciam
5
-12
-90
12 20.8
-H 833 36
—1.0005
.5382
4-.2681
— a8813
.9987 1
21
29 Pisciom
54
—22
—90
13 49.0
4-9 58 54
-1.1384
.5383
4-2686
—8.8255
9.9990 ]
22
lOCeti
6
—11
—90
134.0
— 2 39 2
—0.9986
.5306
4-.2698
-8.1746
oooool
23
H Piscium
44
-1-90
4- 1
8 32.2
■^- 320 54
4-0.8106
.5218
4-.2584
4-8.9730
9.9981 ,
23
0 Pigcium
5
4-21
—65
16 2.6
4-10 37 26
-0.4236
.5198
4-.2523
-h9.1659
.9953,
24
Uranus
4-33
—48
23 38.9
— 6 45 3
—0.2087
.5135
■^-.2151
4-94223
.9843'
25
a Arietifl
6
-1-90
4-10
0 32.3
— 5 53 18
-(-0.8876
.5254
4-.2176
4-9.3981
9860
25
53 Arietis
6
4-16
—63
8 14.4
4-134 16
-0.5009
.5243
4-.2063
4-94737
.9799
26
32 Taari
6
—31
—68
7 47.1
-♦- 0 21 47
— 1.1841
.5285
4-.1683
4-9.5746
.9670
26
A» Tauri
44
4-33
—39
11 29.0
4- 3 56 27
—0.1734
J>333
4-.1609
4-9.5676
.9681 1
26
A« Taari
6
4-40
-33
11 46.8
4- 4 13 42
—0.0520
.5337
4-.1610
4-9.5663
.9683
26
*' Taari
54
4-90
-+■26
21 8.3
—10 43 15
4-0.9901
..5410
4-.1414
4-9.5728
.9673,
26
v^ Tauri
5
4-74
— 3
21 33.7
—10 18 41
4-0.4815
J>39l
4-.1415
-H9.5825
.9657'
26
»/• Taari
6
4-64
—10
22 3.8
— 9 49 28
4-0.3455
.5390
4-.1394
4-9.5859
.9651 '
27
rTanri
44
4-90
4-53
4 56.4
— 3 10 40
4-1.2589
JM45
4-.1264
4-9.5861
.9650
27
BA.C. 1518
6
4-54
—15
11 19.9
4-300
4-0.1877
.5426
4-.1121
4-9.6153
.9595
27
/r Taari
6
4-29
-37
12 11.0
4- 3 49 18
-0.2406
.5412
4-.1099
4-9.6231
.9579'
27
105 Tauri
6
4-90
4-37
16 45.1
-H 8 14 10
4-1.0755
.5474
4-.1011
4-9.6105
.9605
28
125 Tauri
6
4-66
— 1
7 1.6
— 1 58 25
4-0.3684
M%A
4-.0668i 4-9.6389
.9543
28
136 Tauri
5
—40
—62
13 5.5
4- 3 63 0
-1.2048
.5425
4-.0525i 4-9.6655
.9477
28
139 Tauri
54
4-90
4-19
15 14.6
-H 5 57 41
4-0.7124
.5509
4-.0477
4-9,6408
.9539
29
49 Auri)^
54
—50
—62
7 52.7
— 1 58 36
-1.2511
JV433
4-.0066
4-9.6735
.9454
30
47 Gem 1 nor.
6
-1-26
—33
0 13.2
—10 15 40
—0.2986
.5458
—.0321
4-9.6584
.9495
30
V Geminor.
5
-13
—63
11 22.9
4- 035 17
—0.9378
.5408
-.0581
4-9.6603
9490
30
(M* Cancri
6
4-34
—31
22 564
H-ll 45 29
—0.1769
.5357
—.0853
4-9.6539
.9507
31
V* Cancri
4
4- 1
-64
8 22.6
— 7 57 13
—0.7482
.5320
—.0940 4-9.6563
.9501
31
X Cancri
6
4-69
— 3
8 8.2
— 8 20 59
H-0.4119
.5393
—.1047
4-9.6173
.9591
31
u» Cancri
6
4-28
—39
13 194
-1- 140 5
-0.2577
.5346
—.1151
4-9.6188
.9588
Feb. 1
I Cancri
5
4-13
—59
7 36.7
— 4 37 46
-05376
.5255
-.1497
4-9.5852
.965a
1
79 Cancri
6
4-12
—60
8 5.9
— 4 929
-0.5582
.5247
—.1516
4-9.5844
.9654
1
B.A.C. 3138
6
4-41
-31
9 434
- 2 35 2
—0.0246
.5263
-.1533
-h9.5714
.9675
2
ti Leonis
34
-M8
—80
12 54.6
— 0 13 27
4-0.0908
.5130
—.1959
4-94773
.9795 '
2
42 Leonif
6
4-76
— 9
20 29.5
-f. 7 8 5
-M).5206
.5106
-.205414-9.4324
.9835
3
B.A.C. 3579
6
4-70
—14
0 10.1
4-10 42 15
4-0.4469
.5086
—.2102,4-94153
.9848
3
1 Leonis
6
4-60
—22
1 57.3
—11 33 38
4-0.2949
JM)76
-.2118 4-94096
.9852
4
F Virginia
44
4-12
—77
17 54.6
4- 3 16 18
-0.5932
4952
—.2444
4-9.1064
.99641
1
4
B.A.C. 3996
6
H-69
—19
19 42.7
-f. 5 127
4-0.4379
4953
—.2456
4-9.0191
.9976
5
6 Virjnnit
6
4-85; — 9
1 41.2
.f.10 50 4
4-0.6471
4949
—.2479
4-8 8909
9.9987;
6
y Virjfinli
34
4-68 —20
0 43.1
-h 9 13 57
4-0.4354
4952
—.2534
—8.0581
0.0000
6
BA.C. 4277
6
-»-60 —27
1 44.5
-1-10 13 38
4-0.3090
4953
-.2534
—8.1324
aoooo
6
38 Vir-inia
6
4-87 4-20
6 59.1
— 8 40 25
4-1.1361
04960 j— .2535
—8.6834
9.9995^
OCCULTATIONS, 1855. 377
ELEMENTS FOR FACILITATING THE CALCULATION OF OCCULTATIONS 1
OF PLANETS AND STABS BY THE MOON, FOR THE YEAB 1855.
1
Limiting
PamUeifl.
Waah-
ington
Meaa
Time of
At Washington Mean Time of i .
Date.
Sur'eName.
II
6
North-
era.
South-
em.
H
Y
P'
q'
ain^
CMX>
Feb. 6
^Virginifl
4.7S
0
—15
h. ro.
10 29.4
h. m. a.
— 5 16 03
H-0.5325
0.4970
—.2533
—8.7229
9.9994
6
48 Virgini8
t Virginiii
6
-h32
—55
12 47.7
— 3 0134
—0.2101
.4973
—.2.530
—8.7015
.9995
6
44
4-85
4-11
16 02.9
4-0 08 11
-1-1.0023
.4980
—.2525
—8.9195
.9985
6
66 Virgiois
6
—43
—90
23 52.5
-f- 7 44 261—1.3546
.5025
—.2507
—8.8854
.9987
7
6
—24
—90
3 49.7
4-11 34 53
—1.1582
.5040
—.2493
—8.9820
.9980
7
mVii^nig
6
-»-54
—31
8 53.1
— 7 30 25
4-0.2353
.5051
—.2472
—9.1421
.9958
8
I Virginia
44
4-76
— 9
4 03.5
4-1105 52
4-0.6471
.5163
—.2353
—9.3422
.9892
8
5 Libre
6
-h32
—49
17 13.9
— 0 08 18
—0.1019
.5270
—.2224
—9.4086
.9852
8
8 Libre
6
-J-35
—44
19 29.9
4-2 03 21
—0.0285
.5283
—.2201
—9.4240
.9842
8
alibre
H
-h37
—43
19 35.3
4- 20840
— O.0014
.5282
—.2201
—9.4252
.9841
9
y» Libra
5
—52
—90
3 02X)
4-9 20 50
—1.3335
.5383
—.2107
-9.4321
.9835
9
28 Libre
6
-H 1
—89
9 35.2
— 8 19 00
—0.6522
.5425
—.2017
-9.4812
.9791
9
41 Libre
6
—21
—90
17 40.5
— 0 30 15
—0.9836
.5511
—.1889
—9.5087
.9761
9
X Libre
5
—12
—90
19 01.4
-+- 0 47 48
—0.8356
.5532
—.1860
—9.5172
.9751
10
it Libre
6
-39
-90
0 00.2
-f- 5 36 09
—1.1943
.5587
—.1775
—9.5284
.9737
10
B.A.C. 5281
6
— 5
-90
2 00.1
4- 7 31 48
—0.6875
.5590
— .1735
—9.5455
.9714
10
a Scorpii
2*
-♦-68
4- 5
2 582
4- 8 27 50
-1-0.8494
.5542
—.1717
-9.5774
.9666
10
19 Scorpii
H
-t-66
4-25
1131.9
— 7 17 16
-1-1.1082
.5614
—.1543
—9.6062
.9613
10
q Ophlachi
18 Ophiachi
5
H-Sl
—39
13 36.5
— 5 17 20
-H).0671
.5677
—.1499
—9.5939
.9636
10
6
-f-26
—42
23 25J3
-h 4 09 06
4-0.0151
^780
—.1262
—9.6157
.9594
11
B.A.C. 5709
6
-1-26
—42
3 29.0
-♦-8 03 15
-1-0.0235
.5817
—.1160
—9.6238
.9577
11
26 Ophiachi
6
-J-20
—48
3 33.6
— 5 52 17
—0.0918
.5820
—.1160
—9.6221
.9581
11
A Ophiachi
i Ophiachi
5
4-64
4-11
9 31.0
—10 09 03
4-0.9112
.5828
-.0998
-9.6477
.9522
11
34
—26
—90
12 06.3
— 7 40 00
—0.8912
.5944
—.0915
—9.6235
.9578
12
B.A-C. 6194
54
+21
-38
9 09X)
-11 29 44
4-0.0906
.6042
—.0273
—9.6584
.9495
12
ipSagittarii
44
-hl5
—42
19 15.2
— 1 49 29
-1-0.0196
.6088
-h0056
-9.6591
.9494
12
0 Sagittarii
24
—16
—87
22 46.0
4- 1 32 12
—0.6003
.6133
-I-.0174
—9.6491
.9519
13
rSagittarii
B.A.C. 6666
34
H-62
4-11
2 58.2
4- 5 33 31
4-0.8958
.6059
-♦-.0308
—9.6699
.9464
IS
6
4-60
— 4
11 17.0
—10 29 19
4-0.6772
.6077
-4-.0595
—9.6612
.9488
13
A* Sagiltarii
44
—54
—90
13 48.5
— 804 23
— 1.2176
.6179
4-.0677
—9.6292
.9566
13
a» Sagittarii
54
4-63
4- 3
20 43.1
— 1 27 48
4-0.7889
.6060
-♦-.0907
—9.6523
.9511
13
A Sagittarii
5
4-63
4- 3
21 52.0
— 0 21 51
-H0.8000
.6059
4-.0940
—9.6508
.9515
17
27 Pisciom
5
4- 1
—90
21 52.0 — 4 07 12
-0.7860
.5460
4-.2744
—8.8811
.9987
18
29 Pisciom
54
— 6
-90
0 17.3 — 1 44 40
—0.9173
.5455
-I-.2750
—8.8255
9.9990
18
lOCeti
6
4-4
—90
11 41.7
-♦- 9 16 49
—0.7528
.5395
-f-.2764
—8.1738
0.0000
19
ePisciam
54
—22
—85
7 18.7
4- 4 15 22
—1.1633
Ji317
-I-.2707
-h8.9298
9.9984
19
M Pisdam
44
-»-90
4-18
17 39.2
— 9 44 09
4-1.0829
.5317
-I-.2645
4-8.9731
.9981
20
0 Pisciam
5
4-37
—48
0 54.5
— 2 42 51
—0.1232
.5297
-I-.2583
4-9.1659
.9953
20
54Ceti
6
—54
-80
3 30.8
— Oil 32
—1.4031
.5275
-f-.2561
-*-9.2.533
.9929
21
Ubahus
4-50
—30
8 18.6
-h 3 40 51
4-0.1336
.5304
-h.2204
-1-9.4262
.9839
21
fT Aiietis
6
4-90
-h32
8 21.7
4-3 43 49
-1-1.1888
.5339
-h.2208
4-9.3880
.9860
21
53 ArieUs
6
4-33
—45
15 50 5
-hlO 58 06
—0.1805
.5320
-f-.2092
-f-9.4737
.9799
22
32 Taari
6
— 6
—68
14 48.3
-+- 9 10 35
-0.8654
.5346
-h.l685
-»-9.5746
.9670
22
A» Taari
44
4-51
—23
18 25.4
—11 19 35
4-0.1320
.5389
-I-.1616
-1-9.5676
.9681
22
A« Taari
6
4-58
—17
18 42.8
—11 02 42
-H).2524
.5394
4-.1604
4-9.5663
.9683
23
«< Taari
H
4-90
4-53
3 53.5
— 2 10 27
4-1.2779
.5454
-f-.1423
-f-9.5725
.9673
23
..»Tauri
5
-*-90
-f-13
4 18.5
— 1 46 21
4-0.7736
.5437
-I-.1408
-f-9.5825
.9657
23
J^ Taari
6
-♦-90
-h 5
4 45.6
— 120 07
4-0.6383
.5434
-h.1400
-1-9.5859
.9651
23
B.A.C. 1518 6
4-74
- 1
17 51.8
•♦-11 19 22
-f-0.4698
.5459
4-.1117
4-9.6153
.9595
23
ifc Taari 16
-M6
-22
18 42.1
—11 52 02
-♦-0.0558
0.5445
4-.1095
-h9.6231
9.9579
48
378 OCCULTATIONS, 1865.
ELEMENTS FOR FACILITATING THE CALCULATION OF OCCULTATIONsj
OF PLANETS AND STARS BY THE MOON. FOR THE TEAR 1855
Dau.
Star's Name.
1
Limitinc
Parallels.
Waah-
Time of
I-
At Washington Bfeui Time of ^ .
1
6
North,
em.
o
-h90
South-
em.
o
4-11
H
Y
P"
q'
Ix^^dn
I^co.
Feb. 24
125 Tauri
h. m.
13 20.8
h. m. B.
-h 6 08 18
4-0.6359
0.5499
+i)845
+9.6389
9.9543
24
136 Taari
5
— 14
—62
19 22.0
-♦-11 57 00
—0.9473
.5436
+X)518
+9.6655
.9477
24
139 Tauri
H
4-90
4-34
21 303
— 9 59 09
4-0.9576
.5518
+X)469
+9.6408
.95391
25
49 Auriga)
H
—21
—62
14 04.2
4- 600 23
-1.0231
.5427
+.0054
+9.6735
.9454
26
47 Gemiuor.
6
-1-37
—23
6 23.5
— 2 13 58
—0.1024
.5451
—.0334
+9.6584
.9496
26
5
— 1
—63
17 33.7
4-8 33 28
-0.7598
.5395
—.0594
+9.6603
.9490
26
c Gemiuor.
6
-♦-55
—10
2121.2
—1146 42
4-0.2018
.5424
-.0686
+9.6438
.9532
27
(p Geminor.
5
—43
—63
1 39.2
— 7 37 19
-1.2340
.5351
—.0776
+9.6591
.9494
27
CO* Cancri
6
-M2
—23
5 08.2
— 4 15 16
—0.0223
.5388
—.0866
+9.6385
.9545
27
V« Cancri
4
-h 9
—58
9 34.8
-H 0 02 33
—0.6020
.5352
— X)953
+9.6410
.9538
27
X Cancri
6
-1-80
4- 3
4 21.1
— 5 20 38
-1-0.5471
.5378
—.1060
+9.6173
.9591
27
V* Cancri
6
-f-36
—32
19 32.9
4- 9 41 03
—0.1336
.5333
—.1165
+9.6188
.9588
28
3 Cancri
5
-fl8
—54
13 52.0
-H 3 25 05
—0.4523
.5243
—.1522
+9.5852
.9652
28
79 Cancri
6
-hl7
—55
14 21.3
4- 3 53 23
-0.4749
.5241
—.1531
+9.5844
.9654
28
B.A.C. 3138
6
-M6
—27
15 58.9
4- 5 27 57
4-0.0549
.5250
—.1559
+9.5713
.9675
Mar. 1
t/Leonis
34
-M9
—30
19 10.2
-H 7 49 42
4-0.1034
.5126
—.1986
+94773
.9795
2
42 Leonia
6
-f-78
—11
2 44.4
— 8 49 30
4-0.5137
.5106
-.2084
+94324
.9835
2
B.A.C. 3579
6
-^69
—15
6 24.5
— 5 15 47
4-0.4304
JM92
—.2126
+94153
.9848
2
1 Leon is
6
•+-59
—23
8 11.5
— 3 31 56
4-0.2743
.5082
— J8150
+94096
.9852
3
r Virginia
44
-*- 6
—82
23 57.9
4-1107 03
—0.7134
4967
—.2479
+9.1064
.9964
4
B.A.C. 3996
6
4-61
—26
0 58.1
—1155 49
4-0.3112
4976
—.2490
+9.0191
.9976
4
6 Virpnii
6
-f-74
—17
7 41.6
— 522 06
+0.5058
4970
—.2517
+8.8908
.9987
4
10 Virfi:inis
6
4-90
4-16
IS 01.9
— 0 10 40
+1.0683
4968
—.2535
+8.6747
9.9995
5
Y Vireinis
BA.C. 4277
H
4-57
—30
6 35.0
— 7 06 41
4-0.2442
4976
—.2566
—8.0585
0.0000
5
6
4-49
—37
7 36.0
— «07 24
4-0.1162
4976
—.2568
—8.1330
0.0000
5
k Vinfinis
6
+61
—26
16 18.1
4-2 20 06
4-0.3231
4993
—.2564
—8.7231
9.9994
5
48 Virginia
6
4-21
—68
18 3^.8
-f- 4 33 56
—0.4233
4999
—.2561
—8.7016
.9994
5
0 Virginia
44
-h76
— 2
21 50iS
4- 7 42 52
+0.7832
.5004
—.2555
—8.9195
.9985
6
I* Virginia
6
—51
—90
9 34.5
— 4 52 55
-1J948
.5057
—.2519
-8.9822
.9960
6
m Virginia
6
4-41
—44
14 37.3
-h 0 01 08
—0.0094
.5065
—.2496
—9.1421
.9958
7
X Virginia
44
4-60
—23
9 48.4
^ 5 21 53
-+-0.38S3
.5164
—.2362
-9.3422
.9892
8
8Librs
6
-»-27
—61
1 19.3
4-9 40 14
—0.3047
.5280
—.2202
—94240
.9842
8
a Libras
24
4-23
—59
1 24.9
4- 9 45 38
—0.2775
.5277
—.2201
—94252
.9841
8
28 Libra
6
—16
—90
15 32.9
— 0 33 52
—0.9376
.5398
—.2010
-9.4812
9791
8
41 Libra
6
—47
—90
23 44.7
4-7 2123
—1.2738
.5489
—.1874
-9.5087
.9761
9
xLibrs
5
—32
—90
106.8
4- 840 40
—1.1249
.5493
—.1851
—93172
.9751
9
B.A.C. 5281
6
—22
—90
8 12.5
— 8 28 25
—0.9734
.5555
—.1718
-9.6455
.9714
9
aScorpii
24
4-62
—11
9 11.6
— 7 31 22
+0.5799
.5509
—.1699
—9.5774
.9666
• 9
19 Scorpii
54
4-66
4- 5
17 55.4
4-0 53 44
4-0.8465
.5567
—.1523
—9.6062
J613
*
( Ophiuchi
5
4-17
—55
20 02.7
4-2 56 21
—0.2067
.5630
—.1473
-93989
•^i
9
22 Scorpii
6
4-65
4-44
21 57.2
4-4 45 41
+1.2644
.5582
—.1435
—9.6226
.9580
10
25 Scorpii
18 Ophiuchi
B.A.C. 5709
6
-»-64
4- 3
4 52.8
4-11 26 50
4-0.8101
.5657
—.1270
—9.6302
J563
10
6
4-12
—58
6 05.3
—1123 21
—0.2540
.5720
—.1234
—9.6158
.9594
10
6
4-12
—58
10 15.3
— 7 22 54
-0.2424
.5750
—.1133
—9.6238
.9577
10
26 Ophiuchi
6
4- 6
—66
10 20X)
— 7 18 20
—0.3591
.5756
—.1133
-9.6221
J581|
10
A Ophiuchi
5
+60
— 6
16 27.2
— 1 25 19
4-0.6646
.5753
—.0976
-9 6477
.9522:
10
t Ophiuchi
34
—46
—90
19 07.0]4- 108 16
— 1.1633
.5865
—.0895
-9.6235
.9578
n
S Sagittarii
5
4-62
4-24
5 04.5 4-10 42 07
+1.0732
.5822
—.0610
—9.6684
.9469
11
B.A.C.6194
54
4- 9
—52
16 49.6 — 2 01 22—0.1432
.5935
— X)293
—9.6584
.9495
12
f Sagittarii
A
4- 4
—55
3 16.9 4- 6 00 01!— O.2014
0.5984
+/K)68
—9.6591
9.9494
OCCULTATIONS, 1855. 379
ELEMENTS FOR FACILITATIKQ THE CALCULATION OF OCCULTATIONS [
OF PLANETS AND STARS BY THE MOOK, FOR THE YEAR 1855. |
i
Ai Wutiln£Xon Mean TttnA of I .
DUB.
SWiNvoe.
3
iw?
24
North
ero-
am.
iflCAII
TiiriB of
A-
H
Y
y
^
L>*
lAnD
—9.6491
OMP
Sfiir. la
a Safrittarii
—28
c
^90
6 55.2
Ik m. a.
+11 29 14
—0.8366
o.6oai
-h.0179
9.95 IJT
i:^
T S^Htlarli
3i
+60
— 3j
11 16JV
— 8 20 25
+0.7019
.59.^0
't*.0.^23
-9.6699
J?464
12
B.A.C. 662a
6
+62
+47
17 51.3
— 2 02 06
+ 1J454
.5922
+.0532
—9.6736
.9453
\2
aA^C. ft645
6
+48
— le
19 53.2
- 0 05 15
+04927
.5965
+0763
—9,6612
.9488
la
HI Sxgittarii
54
+58
— 8
5 39.6
+ 9 16 39
+0.6224
.5948
+.0884
—9.6523
.9511
]3
A SiifitUmi
B.A.d 7U77
5
+59
— 7
6 50.9
+10 25 02
-hO.6352
.5946
+.0939
-9,6508
,9515
V4
6
+65
+132
19 46.2
— 1 11 44
+0.9465
Ji891
+1327
^9.6329
.9557
14
B-A.C. 7237
6
+66
+13
3 33.5
+ 9 16 35
+0.9598
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+.1537
—9,6148
.9596
14
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6
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— 1 1476
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+.17S0
—9.5571
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12 28.0
— 9 10 17
—0.6153
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+.1770
—9.5593
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33 Ciiprifor.
6
+42
—32
14 53^
— 6 53 24
+0.2101
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+.1856
-9.56.14
.9688
u
35 Capri eor.
6
+68
+ I
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— 4 45 14
+0J91S
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+.1S91
—9.5702
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14
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+48
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- 1 48 58
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+.1960
—9.5490
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+.1971
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+ 1 12 29
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—9.5240
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14
B.A,C. 7550
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+61
—15
23 29.4
+ 1 25 12
+0.5246
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+.2027
—9.5399
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1»
Ppisdam
5
+46
-39
11 197
+ y 30 33
+0.0546
.5364
+.2633
+9,1659
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-11 56 56
-1.1888
.5.14 [
+.2610
+9.2532
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20
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— 9 50 38
— L3051
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+ 2271
+ 9.4624
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— 7 05 08
+0.444S
.5393
+.2220
+ 9.4347
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— 6 41 36
—1.1366
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+.2217
H-9.4757
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+.2135
-f-9.4737
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32 Tauri
6
+10
-64
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— 4 13 35
—0.6108
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+.1722
+9.5746
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33 Taari
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—56
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— 4 09 14
—1.3314
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+.1722
+9.5874
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32
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H
+66
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— 0 49 42
+0.3770
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+.1638
+9.5676
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— 0 33 27
+04949
.5480
+163B
H-9.5663
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+90
+28
12 44.6
+ 8 27 40
+1.0146
.5523
+1448
+9.5825
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i/*Tatiri
6
+90
+19
13 ll.l
+ 8 53 13
+0.8808
.5518
+.1421
+9,5859
.9651
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B.A.C, 1518
6
+90
+ 13
I 57,5
— 2 47 05
+0.7153
.5533
+.U33
+9,5153
.9595
S3
t Tauti
6
+62
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— 1 59 40
+03055
,5518
+.11 09
+9,6231
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£3
125 Taari
6
+90
+26
21 1.0
— 8 23 46
+0.8688
.5558
+.0658
+9.6.389
.9543
S4
136 Tann
5
4- 3
-61
2 554
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—0.6936
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+.0520
+9.6655
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34
139 Tauri
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+90
+53
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— 0 40 18
+ 1.1954
.5571
+.0457
+9.6408
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49 Attrig®
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- 2
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21 20.0
— S 56 09
— 0J782
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+9.6735
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34
54 Autigtt
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—33
-62
23 t5i)
— 7 05 09
-1.0529
.5450
+.0005
-H9.6771
.9+44
S5
47 Gemiaor.
6
+51
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13 38.9
+ 6 39 03
+0.1367
.5469
—.0341
+9.6584
.9495
35
53 Geminor*
6
—38
-62
15 29.5
+ 8 as 35
-- 1.1074
,5381
—.0389
+9.6737
.9453
£5
t Gemiaor,
4
--45
—62
19 54.7
^11 08 20
—12357
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^.0486
+9.6728
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36
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5
+13
-^50
0 33^
— 6 39 07
— OJ369
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-.0603
H-9.6603
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+70
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-3 00 39
+04187
.5431
—.0697
+9.6438
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26
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5
—19
—63
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+ 1 07 28
—1.0174
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-.0789
+9.6591
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56
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+54
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+ 4 23 37
+0.1867
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.^.0977
H-9.6386
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4
+21
—45
IG^}S
+ 8 45 32
— 0;i955
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—,0965
+9.6410
.9538
36
1 Cant^ri
6
+90
+ 15
21 I5J
—10 3B 23
+0.7450
,5372
-.1073
+9.6173
.9591
37
y' Cancri
6
+47
— 2£
2 49.3
— 5 1457
+0.0618
.5323
-.1176
+9.6188
.9588
57
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5
+38
—44
,20 46j0
—11 53 23
-0.2796
.5331
—,1524
+9.5853
.9652
27
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6
+26
-46
21 15.2
-11 25 03
— 03210: .5223!
—.1542
-k9,&847
,96.'i3
27
B.A,C. 313S
6 1
+56
-19
22 52.9
— 9 50 25
+0.3239, .5230
—.1577
+9.5713
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ti Leotiia 3j
+56
—23
2065
— 7 26 24
+0.2304 i .5112
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+94773
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+85
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94L1
— 0 05 12
+0.6269.0.5097
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+9,4325 9.98^5 II
aSO OCCULTATIONS, 1855.
1 ELEMENTS FOR FACILITATING THE CALCULATION OF OCCULTATIONS i
OF PLANETS AND STARS BY THE MOON. FOR THE YEAR 1855
i
Limitinf
Paimllela.
Wash-
inrton
'
Data.
Star's Name.
1
North-
em.
South-
ern.
Hineof
6'
H
r
P'
q'
^xT"
9.9848
Mar. 29
B.A.C. 8579
6
+7?
c
—10
h. m.
13 21.4
h. m. ■.
-♦- 3 28 41
-H)i»76
0.5079
—.2139
-f-94153
29
1 Leonis
6
-f-66
—18
15 08.4
-♦- 5 12 36
-H)^787
.5069
-.2163
-f-94095
.9852 1
29
k Leonifl
6
—50
—75
22 02.2
-♦-11 53 11
—1.3709
.5013
—.2241
-f-94118
.9850
31
r Virginis
B.A.C. 3996
4*
H- 8
—83
6 50.8
— 4 12 29
—0.6829
.4975
—.2501
-1-9.1064
.9964
81
6
H-62
—25
8 37.7
— 2 28 30
-M)^55
4984
—.2512
-♦-94)190
^76
31
b Virginw
10 VirfpnU
6
+75
—16
14 32.1
-♦- 3 16 00
-H)^177
4983
—.2542
-f-8.8908
.9987
31
6
-1-90
-his
19 50.5
-h 8 25 SO
-1-1.0681
.4985
—.2561
-♦-9.6747
9.9995
April 1
y VireinU
B.A.C. 4277
H
-4-55
—32
13 15.2
-t- 1 21 01
-H)^118
.5003
—.2601
—84)588
0.0000
1
6
-1-48
—39
14 15.6
-♦-2 19 43
-♦•0.0821
.5006
—.2601
-8.1330
04)000
1
38 Viiginis
6
+87
-h 3
19 25.4
-♦-7 20 49
+0.8851
.5013
—.2601
—8.6887
9.9995
2
48 Vir^nis
S VimnU
6
-M9
—71
108.6
—1105 45
-0^751
.5034
—.2595
—8.7016
.9994
a
**
-h84
— 6
4 20.8
— 7 59 01
-1-0.7199
.5036
—.2590
—8.9196
J)985
3
X Virginis
4i
H-54
—29
15 51.7
-♦- 2 28 55
-♦-0.2725
.5820
—.2402
-9.3423
.9892
4
5 Librte
6
+11
—75
4 55.6
— 8 51 48
—0.5083
.5315
—.2255
-94087
.9852
4
8 Libra
6
H-15
—70
7 10.8
— 640 54
-04377
.5325
—.2230
—94240
SUl
4
aLibne
2i
-1-16
—68
7 16.3
— 6 35 38
—04105
.5323
—.2229
—94253
9841
4
28 Libra
6
—26
—90
21 14.5
-♦-6 55 04
—1.0819
.5450
-.2031
-9.4813
J791
5
X Libra
5
—47
—90
6 42.9
— 7 55 52
—1.2767
.5526
—J 878
-9.5172
.9751
5
B.A.C. 5281
6
—34
—90
18 45.3
— 1 08 17
-1.1821
.5580
—.1745
—9.5455
.9714
5
aScorpii
^
-h53
-21
14 44.0
— 0 11 88
+0.4192
.5533
—.1725
—9.5774
.9666
.9613
5
19 Scorpii
^h
H-65
— 5
23 24.8
-♦- 8 10 25
-H).6822
.5594
-.1536
—9.6062
6
Q Ophinchi
5
-+- 9
—66
131.5
+10 12 81
-0.3721
.5649
—.1490
—9.5939
.9636 :
6
22 Scorpii
5
-1-65
-4-24
3 25.6
—1 1 57 32
-|-1X)990
.5605
—.1444
-9.6226
J)580|
6
25 Scorpii
6
-h62
— 7
10 20.2
— 5 18 26
-H).6439
.5674
—.1277
—9.6302
.9563
6
18 Ophiuchi
6
+04
—71
11 32.7
— 4 08 38
—04241
.5728
—.1252
—9.6157
.95941
1
6
B.A.C. 5709
6
-h 3
—70
15 42.6
— 0 08 12
-04128
.5754
—.1150
—9.6239
.9577 !
6
26 Ophiuchi
6
— 3
—79
15 47.4
— 0 03 36
—0.5302
.5760
—.1150
—9.6221
.9581'
6
A Ophiuchi
5
H-50
—15
21 55.2
+ 550 04
-H)4957
.5762
— i)965
-9.6478
.9522,
7
3 Sainttarii
BJV.C. 6127
5
+62
-hll
10 36.5
— 5 58 35
-H).9101
.5805
-4)625
—9.6684
.9469.
7
5
+62
-♦-43
18 34.8
-♦-140 38
-1-1.2224
.5820
—4)387
—9.6782
.9440
7
B.A.C.6194
6i
— 0
— 64
22 28.6
-♦-5 24 58
—0.3211
.5914
—.0265
-9.6483
.9496'
8
if Sagittarii
H
— 4
—67
9 04.8
— 8 24 45
—0.3727
.5943
-h4)075
-9.6591
.94941
8
a SagitUrii
2i
—40
-90
12 46.8
— 4 51 52
-14)035
.5977
-h.0169
—9.6491
.9519 t
8
T Sagittarii
H
+48
—12
17 12.8
— 0 36 42
-♦-0.5419
.5898
-♦-.0325
—9.6698
9464
8
BJL.C. 6628
6
-h62
-♦-26
23 55.7
-h 5 49 43
-♦-1J0945
.5863
-I-.0543
—9.6736
.9453 1
9
BJlC. 6666
6
+37
—24
2 00.3
-♦- 7 49 16
-M).3336
.5902
-t-.0604
-9.6612
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9
0) Sagittarii
H
+48
-17
12 00.8
— 6 34 40
-M)4708
.5859
-+-.0907
—9.6523
.9511
9
A Sagittarii
B.A.C. 7077
5
-♦-49
—16
13 14.0
— 5 24 26
-M)4849
.5871
-♦-.0936
—9.6508
.9515!
10
6
H-65
-♦- 9
2 30.9
-+- 72033
-♦-0.9005
.5809
-f>.1308
-9.6329
.9557
10
BJI.C. 7197
6
-4- 8
-74
8 42J3
—10 42 45
—0.4703
.5840
-f-.1468
—9.5966
.9632
10
B.A.C. 7237
6
-1-66
+23
10 32.4
— 8 66 56
-hlJ095i
.5761
-f-.1520
—9.6176
.9590
10
/ Capricor.
6
— 9
—90
16 51.0
— 2 53 02
-0.7307
.5806
-♦-.1671
—9.5693
.9679
10
27 Capricor.
6
—56
—90
17 15.4
— 2 29 35
—1.3047
.5820
-f-.1696
-9.5571
.9698
10
f Capricor.
6
—10
—90
19 43.9
— 0 06 43
-0.7621
.5786
-♦-.1743
—9.5592
.9694
10
33 Capricor.
6
-4-34
—40
23 13.0
-h 3 14 23
-H)X)655
.5729
-♦-.1836
—9.5634
^688
1
U
35 Capricor.
6
+67
— 7
0 29.0
-♦- 4 27 25
-♦-0.6705
.5700
-♦-.1859
-9 5702
.9677
11
37 Capricor.
6
•4-41
—34
3 38.5
-h 7 29 48+0.1701
.5704
-♦-.1925
—9.5489
.9709
11
• Capricor.
<h
-♦-19
—59
4 34.3
-1-8 23 32
-0.2681
A7\5
-♦-.1946
—9.5365
.9727,
11
* Capricor.
5
+13
—68
6 53.6
-+-10 37 34
—0.4015
.5695
-♦-.2009
—9.5241
.9743
"
B.A.C. 7550 6
-•-55
—22
7 07.3 -1-10 50 45'-H)4061
0.5666
-♦-.2009
—9.5399
9.9722,
OCCULTATIONS, 1855. 381
ELEMENTS FUIt FACILITATING THE CALCULATION OF OCCLXTATIONS
OF TLANETS AND STARS BY THE MOON, FOR THE YEAR 1655,
4
Limiting
iEil£tnQ
At Wajbtflflon Mmo Tinte of i .
Dhts.
SLor'a Name.
~
IVfojio
II
1
6
om.
Soiiih
em
Timti of
H
Y
P'
?'
Loif
frill ^
April 11
23 Aquftrii
o
-7?
h. in.
15 15,5
h, rn. 1
*^ 5 19 06
-0.5318
0.S652
-*-.2i6e
—9.4820
9,9790
12
5ti Aquftrij
fi
-h29
-52
3 IGJ
+ 6 15 29
-0J5I8
.5600
+.2368
—9,4221
.9843
12
t' Atiuarii
6
+75
+27
10 55.9;^lO 20 55
+ M962
.5489
H-.2480
—9.4079
.9853
13
t» Aquiirii
4
-h76
+ 8
n 4e^f— 9 32 18
+ 0.9397
.5500
H-.2480
— 9JJ944
,9862
12
74 Aquarii
6
-k 8
-82
13 30.&
- 7 51 30
-0.6026
.5528
+.2505
-9.3314
.9898
13
1^* AqQarii
H
+31
-54
0 30.2
+ 2 45 14
■-0.1982
.5464
+.2C27
-0.2386
.9934
13
1^ Aquarii
5
-h60
—25
0 58.6
+ 3 12 40
+Om'J570
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+2636
^9.2567
.9928
l.H
27 Pbciiim
5
+02
-90
19 15.9
— 3 06 56
—0.7745
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+.27.55
— &.88U
.9987
la
29 Pisciam
H
—05
— ^
20 43.6
— I 42 07
—0 9000
.5395
+,2759
—8.8255
.9990
13
MtHCURT
^20
-90
23 59.5
+ I 27 19
— 1.1476
.4837
+.2546
-8.6726
.9995
17
53 Arietb
6
+51
—29
11 ia.2
+ 9 56 50
+OJ320
.5453
+.2160
+-9.4737
.9799
18
Venus
+90
+ 2
7 2.3 9
+ 5 25 56
+0.6552
^028
+.J647
+9.5470
.9712
18
32 Tfturi
6
+ 1G
—58
9 14J,+ 7 12 22
— *.K5074
.5494
+ 1740
+9,5746
.9670
18
33 Tauri
6
-35
—67
9 1S^'+ 7 16 37
—1^238
.5466
+.»740
+9.5874
.9648
IS
A« T««ri
4|
+74
— 6
12 4L8i+t0a2 44
-hO.4777
.5536
+.1676
+9.5676
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18
A» Tnuri
6
+S5
+ 1
12 58-5:+l0 4fl52
+-0.5960
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+.1653
+9,5663
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18
i^^ Tttun
5
+90
+36
22 0y.0l— 4 19 59
+1.1 l&G
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+.1452 +9.5825
.9657
18
v' Tuuri
6
+90
+26
23 35 0 — 3 54 55
+0.9S4U
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+.l45a[ + 9.5859
.9651
19
B.A.C. I51S
6
+90
-fl9,
11 07 J + 8 10 26 +0.8256
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+.1143
+9.6153
.9595
19
k Tfturi
6
+70
— 3
11 bb^ ^ 856 55
+0.4194
.5589
+.1118j
+9,6231
.9579
20
125 Tauri
6
+90
+53
5 48.6'+ 2 1142
+0,9845
.5625
+.0688
+9,6389
.9543
20
136 Tanri
5
+n
—52
U 363'+ 746 55
—0,5650
,5553
+.0533
+9.6655
.9477
ai
49 Aiiri^ffi
5i
-1- 6
-55
5 4i.4 H" 1 13 05
—0.646^
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+.006S
+9,6735
.9454
21
54 Auni,^fie
6
—12
—62
7 34.5 + 3D213
—0,9200
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+0014
+9.6771
.9444
21
47 Ge minor.
6
+59
— 4
21 35.2
— 7 26 49
+0Ji528
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—.034!
+9.6584
.9495
21
53 G« minor*
6
—16
-62
23 34J
— 5 31 28
—0.9747
.5450*
-.0390
+9.6737
.9453
£2
I Geminor. J4
-27
-63
3 56.5
— I 18 47
— 1.1026
.5421
—.0513
+9,6728
.9156
, 22
Lf Gcminot. ,5
+ 20
—42
8 31.9'+ 3 07 07
—0,^031
.5440
-.0609
+9.6603
.9490
22
ff> Geminof.
5
-09
—63
16 29.8
+10 48 39
—0.8872
.5383
-.0795!
+9.6591
.9494
22
fti' Caouri
6
+63
— 7
19 56.0
— 9 52 09
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r
382 OCCULTATIONS, 1855.
Il BLEMENTS FOB FACILITATINO THE CALCULATION OF OCCULTATIONS ||
II OF PLANETS AND STARS BY THE MOON. FOB THE YEAB 1855.
•S
Limiting
Wash-
iM|:ton
Time of
At Waahlngum Meuk Time of ^ .
Dau.
Sur'aName.
1
1
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ern.
South-
ern.
H
r
Tf
^'
U^ain
Uf^cc.
April 29
$ Virginii
4i
o
+82
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— 5
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12 13.4
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-♦- 1 41 18
+07429
0.5048
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—8.9196
9.9985
30
m Virginii
6
+37
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— 6 19 58
— 0X)844
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—9.1422
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30
I Virginia
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23 239
+1148 45
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—9.3423
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6
+ 2
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—94087
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6
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—0.4468
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—94240
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+16
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+ 2 30 15
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—94253
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1
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6
+73
+47
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+ 2 46 57
+1.3471
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s
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-9.6302
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18 Ophinchi
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6
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3
26 Ophiuchi
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-9.6221
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7
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1 ■
OCCULTATIONS, 1855. 383
ELEMENTS FOE FACIUTATINO TEE CALCULATION OF OCCULT ATIONS
OF PLANETS AND STARS BY THE MOON, FOR THE YEAR ISSS.
i
Llmiiipi^
Frnmbebi.
' AlWMyn«loiiBfttaTlmoar £'
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Sur'aNuDTH
I
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0.5454 -hJai8
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CtH 1?
M*Jll
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6
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-90
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— 5 19 22
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0.0000
12
e PisciQm
H
—14
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11 53.6
— 9 46 44
— 1.04S6
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12
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+9J659
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17
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+0.97S8
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+9.6655
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19
49 Atirjf^n
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H- e
-55
14 17.4+1136 58
—0.6560
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+9.6735
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—0 9283
Ji542|+.0002
+9 6771
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19
47 Geminor
H-58 — 5
G L9 + 2 47 47i+0-a386
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+9.6584
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19
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20
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+34
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+9.5849
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21
19 Canrri
ft
+32
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13 0,7 + 7 55 54
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+9.5844
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91
B.A,C. 3138,6
+62
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+0Jit39
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+9.5713
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+ 11 56 39
+0^028
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+9.4325
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+9.4153
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6
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+9.4096
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23
k Ijeanh
S
—32
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14 21.9
+ 7 49 2
—1.2505
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-+-9.4189
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24
V Vin>irib
44
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23 12.9
— 8 14 47
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-.2487
^9.1064
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25
B.A.C. 3^06
6
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1 1.2
— 6 £9 28
+-0.3648
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—.2497
-4-9,0191
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25
6 Vir^lnb
6
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+8J909
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25
10 Virpiob
S
4^90
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12 21.8
+ 4 32 23
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+8.6747
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24
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00000
26
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6
+97
+ i^
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—8.6837
9.9995
2G
k Virtfinw ,
6
+58
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15 35.6
+ 7 049
+0.2717
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—8,7231
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ae
48 Virginia
@
+ 19
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17 52.2
-+^ 9 13 32
-0.4754
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—.2591
—8.7017
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i yirginift
44
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— 6
21 4.8
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—.2586
—8.9196
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27
m Virgin is
6
H-36
—49
13 37 ,3^
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X Virj^niB
H
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8 21.4
— 1 25 49
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2S
5 Librie
6
+11
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21 11.0
+10 59 14
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—^284
-9.4087
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8 Libr®
6
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— 04535
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2S
a Libra)
24
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29
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29
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5
— 4S
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+ 11 13*14
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—9.5172
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30
B.AC. 5281
5
-34
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5 5.2
— 6 12 57
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—,1765
—9.5455
.9714
30
i Smrpb
24
H-51
—22
6 L9
— 5 18 19
+0.^3941
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m
19 Scorpti ;
54
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30
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2 a Scorpii
5
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6
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1 8 Qphinchi 6
+ 3
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.1
384 OCCULTATIONS, 1855.
KLKMENTS FOR FACILITATINO THE CALCULATION OF OCCULTATIONS
OF PLANETS AND STARS BY THE MOON. FOR THE YEAR 1865.
i
Umitin;
ParalleU.
Waah-
Inrton
Mean
Data.
Siar'aName.
1
I
North,
em.
South-
ern.
Hineof
6'
H
r
P'
q'
Uyin
hogem
D
1
9.9577 ,
May 31
B.A.C. 5709
6
o
+ 3
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h. m.
6 3.9
h. m. •.
— 6 11 40
—0.4172
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—9.6239
31
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6
— 3
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— 6 7 17
—0.5321
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—9.6221
.9.581 1
31
A Ophiuchi
5
-1-50
—15
12 15
— 0 28 27
+0.4778
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—9.6478
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June 1
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+11 11 55
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1
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+1.2014
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1
B.A.C. 6194
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0
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1
if Sagiitarii
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2
a Sagittarii
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2
T Saj^itUrii
H
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+.0324
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2
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6
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+.0552
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2
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6
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6
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+ 420 2
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27 Caprioor.
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33 Capricor.
6
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6
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+.1859
-9.5702
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37 Capricor.
6
-♦-43
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+.1944
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4i
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1
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X Capricor.
B.A.C. 7550
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+ 1 32 16
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6
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+ 145 3
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+.2005
—93399
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6
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—73
2 37.6
+ 9 37 45
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+.2154
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56 Aquarii
6
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+.2337
-9 4221
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6
H-65
+35
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4
+66
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74 Aqaarii
6
-hi 2
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+.2480
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1
V'* Aqoarii
4i
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H
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12 27.9
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—9.2385
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5
+65
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- 6 14 0
+04264
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+.2590
—9.2566 .9928
27 Pisciom
5
+ 6
—90
7 49.3
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+.2699
-8.8809 .9987
29 Pisciam
54
— 2
-90
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+.2703
—8.8261 9.9990
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6
+11
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+.2724
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9 Pisciom
H
— 8
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44
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54C€a
6
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+.2564
+9.2634
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54
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18 33.8
— 250 23
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3305
+J252
+94624 .9809 1
e* Arietis
6
—18
—73
2153.4
+ 0 22 42
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+.2203
+94767
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53 Arietis
6
+53
—27
3 3.1
+ 6 22 15
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+.2117
+9 4737
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Ubanus
+90
+20
5 52.4
+ 8 567
+1.0014
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+.2073
+94681
J804
32 Taori
6
+16
—58
132.6
+ 3 622
-0.5036
3455
+.1723
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6
—85
-67
137.0
+ 3 10 42
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44
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3512
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6
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53 Geminor.
6
—24 —62
15 51.2— 9 39 23— 1X)710
0.5498 —.0412+9.6737 9.9463 i
OCCULTATIONS, 1855. 385
ELEMENTS FOR FACILITATING THE CALCULATION OF OCCULTATIONS |
OF PLANETS AND STARS BY THE MOON. FOR THE YEAR 1855.
1
yraiting
PknUel0.
Wash-
ington
lUkan
At Washinfton Mean Time of I .
Dau.
Sur'aNama.
II
S
North-
em.
South-
ern.
Time of
H
r
y
q'
Log sin
Log cos
D
Jane 15
« Geminor.
4
o
—39
o
—62
h. m.
20 10.2
h. m. 9.
— 5 29 30
-1.2045
0.5475
—.0525
+9.6728
9.9456
16
V Geminor.
5
-♦-14
—49
0 42.7
— 1 634
—0.5166
.5490
—.0622
+9.6603
.9490
16
c Geminor.
6
-1-71
+ 1
4239
-♦- 2 27 0
+0.4272
.5512
—.0719
+9.6439
.9532
16
<f> Geminor.
5
—18
—63
8 35.5
+ 6 29 55
— 1.0053
.5431
—.0813
+9.6591
.9494
16
«»Caiicri
6
H-54
—13
U 59.6
+ 9 47 2
-M).l865
.5458
—.0904
+9.6386
.9545
16
i^Cancri
4
-♦-21
—45
16 20.6
—10 0 49
—0.3987
.5411
—.0994
+9.6410
.9538
16
X Cancri
6
H-90
+13
21 U
— 5 29 25
-H).7293
.5426
-.1103
+9.6173
.9.591
17
i/»Cancri
6
-M6
—24
2 8.3
— 0 32 46
+0.0420
.5369
—.1208
+9.6188
.9588
17
1 Cancri
5
-h26
20 16.7
— 6 59 24
—0.3257
.5242
-.1552
+9.5852
.9652
17
79 Cancri
6
4-24
—48
20 45.8
— 6 31 15
—0.3491
.5238
—.1561
+9.5844
.9654
17
B.A.C. 3138
6
-h53
—21
22S3.1
— 4 57 1
+0.1734
.5247
—.1587
+9.5713
.9675
19
i; Leonis
H
-h51
—28
1 40.2
— 229 30
+0.1409
.5078
—.1998
+9.4773
.9795
19
4SLeonis
6
-h75
— U
9 19.6
+ 4 56 31
+0.5104
.5049
—.2090
+9.4329
.9835
19
B.A.C. 3579
6
+70
—15
13 2.7
+ 8 33 14
+0.4344
.5025
—.2134
+9.4153
.9848
19
1 Leonia
6
H-59
—24
14 51.3
+10 18 40
-H).2724
.5015
-.2151
+9.4096
.9852
SI
»" Vlimnis
B.A.C. 3996
^
— I
—83
7 22.9
+ 1 43 2
—0.8424
.4886
-.2468
+9.1065
.9964
SI
6
-^53
—33
9 12.5
+ 3 29 40
+0.1812
.4894
—.2479
+9.0191
.9976
81
b Vireinis
6
H-64
—24
15 \!i.B
-h 923 5
+0.3600
.4894
—.2505
+8.8909
.9987
SI
10 Virginis
6
-♦-90
+ 5
20 42.1
— 9 19 26
+0.9103
.4895
—.2523
+8.6747
9.9995
S2
y Viilginis
21
-h45
-41
14 31.8
+ 816
+0.0408
.4919
—.2560
—8.0583
0.0000
SS
B.A.C. 4S77
6
-h39
—48
15 33.5
-+- 9 1 9
-0.0895
.4921
—.2561
-8.1327
0.0000'
S2
38 Virginis
k Virginis
6
-h86
— 6
20 50.0
— 9 51 4
-M).7164
.4935
—.2562
—8.6836
9.9995
S3
6
-M8
-38
0 21.1
— 6 25 48
-M).1002
.4950
-.2560
—8.7230
.9994
S3
48 Virginis
6
+ 9
—86
2 40.0
— 4 10 49
-0.6498
.4965
—.2559
—8.7016
.9994
S3
S Virginis
*i
4-76
—16
5 55.7
— 1 035
-M).5498
.4967
—.2554
—8.9195
.9985
S3
m Virginis
6
H-28
—58
22 44.5
— 8 40 38
—0.2644
.5065
—.2507
—9.1421
.9958
S4
;i Virginis
^
-M5
—37
17 45.4
+ 9 46 12
+0.1123
.5196
—.2383
-9.3422
.9892
S5
5Libr8B
6
-♦- 4
—87
6 44.8
— 139 1
—0.6428
.5328
-.2854
—9.4087
.9852
25
8 Libre
6
-1- 8
—80
8 58.6
+ 0 30 28
—0.5703
.5344
— .SS30
—9.4241
.9841
S5
a Libne
21
-h 9
—78
9 4.0
-h 0 35 43
—0.5436
.5344
— .SS30
—9.4253
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S5
B.A.C. 4896
6
+73
-h31
9 21.3
->- 0 52 28
+1.2241
.5304
—.8225
—9.4706
.9802
25
(1 Libne
41
+71
+43
18 51.7
+10 3 54
+1.3080
.5390
—.2099
—9.5180
.9750
25
28 Libra
6
—34
—90
22 48.5
—10 7 21
—1.1849
.5508
—.2038
-9.4813
.9791
26
B.A.a 5281
6
—41
—90
14 53.0
+ 5 S2 56
—1.2031
.5683
—.1753
—9.5455
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26
aScorpu
21
-h48
—26
15 49.8
+ 6 17 41
+0.3268
.5638
—.1730
—9.5775
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27
19 Scorpii
51
+61
—10
0 12.4
— 9 38 34
+0.6005
.5716
—.1544
—9.6062
.9613
27
Q Ophiuchi
5
+ 6
-71
2 14.3
— 7 41 19
—0.4319
.5773
—.1504
—9.5939
.9636
27
22 Scorpii
18 Ophiuchi
B.A.C. 5709
5
+65
+17
4 3.9
— 5 55 56
+1.0158
.5732
—.1461
—9.6226
.9580
27
6
-h 2
—75
1150.6
+ 132 34
—0.4623
.5907
—.1288
—9.6158
.9594
27
6
+ 1
-73
15 49.3
+ 5 21 47
—0.4436
.5914
—.1152
—9.6239
.9577
27
26 Ophiochi
6
— 5
—82
15 53.9
+ 5 26 10
—0.5582
.5920
—.1152
—9.6221
.9581
27
A Ophiuchi
5
+48
—18
21 44.4
+11 2 31
H-0.4588
.5924
—.0979
-9.6478
.9522
28
3 Sagittarii
B.A.C. 6127
5
+62
-h 9
9 47.3
— 1 24 38
-H).8861
.5988
—.0628
-9 6684
.9469
28
5
+62
+41
17 20.3
+ 5 49 7
+1.2098
.6001
—.0375
-9.6782
.9440
28
B.AC. 6194
H
+ 1
—61
21 1^
+ 9 20 42
-0.2828
.6112
—.0243
—9.6584
.9495
29
<p Sagittarii
H
— 1
-63
7 2.7
— 5 357
—0.3157
.6135
+.0092
—96591
.9494
29
<i Sagittarii
21
—34
—90
10 32.5
— 1 43 14
—0.9228
.6169
+.0205
—9.6491
.9519
29
r SagttUrii
31
+52
- 9
14 44.0
+ 2 17 24
+0.5937
.6083
+.0359
—9.6698
.9464
29
B.A.C. 6628
6
+62
-4-32
21 5.2
+ 8 22 1
+1.1487
.6044
+.0579
-9.6736
.9453
39
B.A.C. 6666
6
-M2
—20
23 3.2
+10 14 55
+0.4106
0.6081
+.0646
—9.6612
9.9488
49
386 OCCULTATIONS, 1865.
ELEMENTS FOR FACILITATING THE CALCULATION OF OCCULTATIONS
OF PLANETS AND STARS BY THE MOON, FOR THE YEAR 1855
4
Limiting
Parallela.
Wash-
infftoa
Mean
Time of
6^
At Waahiofton Mean Time of 6 •
Date.
Star's Name.
p
1
North
em.
South
em.
H
r
P'
^
9inD
omD
JunaSO
o> Sagtttarii
c
-H56
o
—11
h. m.
8 32.6
h. m. s.
— 4 40 12
4-0.5666
0.6042
-t-.0948
—9.6523
9.9611
30
A Sagittarii
B.A.C. 7077
5
-1-56
—10
9 42.1
— 3 33 42
"♦-0.5830
.6035
4-.0982
—9.6608
.9615
30
6
H-65
+11
22 21.2
-^ 8 33 26
44).9260
.5947
4-.1368
-9.6328
.9567 1
July 1
B.A.C. 7197
6
-MO
-65
4 16.7
— 9 45 48
—0.3545
.5966
-h.1636
—9.5966
.9632^
B.A.C. 7237
6
-h66
+13
6 2.3
— 8 428
4-0.9681
.5897
4-.1576
—9.6148
.9597
X Capricor.
6
H- 1
—80
12 6.4
— 2 15 11
—0.5484
.5921
4-.1733
—9.6693
.9679
27 Capricor.
6
—33
—90
12 29.9
— 1 52 36
— I.UIO
.5935
4-.1744
—9.6570
.9698
(p Capricor.
6
-h I
—82
14 53.1
-♦- 0 24 56
—0.5738
.5891
4-.1807
—9.6592
.9694
33 Capricor.
6
-MS
—29
18 15.1
-♦- 3 38 50
4-0 2599
.5863
4-.1887
—9.6633
.9688
35 Capricor.
6
—13
—90
19 28.7
-♦-4 49 34
—0.8450
.5796
4-.1910
—9.6701
.9677
37 Capricor.
6
-h51
—24
22 32.4
-♦- 7 46 7
-+-0.3594
.5788
-h.1976
—9.6489
.9709
■ Capricor.
4^
-h29
—47
23 26.6
+ 8 38 13
—0.0705
.6796
-h.l998
—9.6364
J727
2
* Capricor.
B.A.C. 7550
5
4-23
—55
1 42.0
-hl0 48 19
—0.1977
A777
4-.2049
—9.6240
.9743
2
6
-+-66
—11
1 55.2
-♦-11 1 7
-H).5987
.5748
4- .2050
-9.6398
.9722
2
29 Aqoarii
6
-1-19
—64
9 50.5
— 5 2143
—0.3113
.6708
-h.2206
—9.4819
.9790
2
56 Aquarii
6
+42
—39
2140.4
+ 629
4-0.0856
.5591
4-.2395
—94221
.9843
3
r« Aquarii
4
-1-76
H-26
6 6.2
— 950 8
-♦-1.1847
.6498
4-.2601
—9.3944
.9862
3
74 Aquarii
6
-«-2I
-63
7 50.1
— 8 961
-0.3481
^521
4-.2517
—9.8313
.9898
3
V/* Aquarii
H
-♦-27
—59
17 53.2
4-132 30
—0.2763
.6446
4-.2616
—9.2342
.9935
3
1^ Aqoarii
H
-M4
—40
18 49.8
4- 2 27 10
4-0X)680
.6432
+.2624
-9.2384
.9934
3
^ Aquarii
5
-h78
—11
19 18.4
4- 2 54 45
4-0.6232
.6421
-♦..2624
—9.2665
.9928
4
27 Piscium
5
-♦-17
—73
13 48.3
— 3 12 9
—0.4972
.6323
4-.2723
-8.8807
.9987 <
4
29 Piscium
H
+11
-83
16 17.6
— 1 45 42
—0.6238
.5320
-f-.2726
-8.8249
9.9990 1
5
lOCeti
6
-1-23
—67
3 9.3
4-9 43 10
—0.4039
.6270
4-.2740
—8.1716
0.0000'
5
e Piscium
H
+ 5
—82
23 27.1
4-6 22 32
—0.7446
.6224
4-.2689
4-8.9301
9.9984
6
o Pisdam
5
+64
—24
17 29.5
— 1 856
4-0.3549
.6237
4-.2606
-»-9.1661
.9953
6
54Ceti
6
— 7
—80
20 8.8
-♦- 1 25 25
—0.9333
.6223
4-.2646
-h9.2634
.9929
8
n Arietii
H
—15
—73
0 10.8
4-4 33 59
—1.0421
.6280
-h.2226
4-94624
.9809
8
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OCCULTATIONS, 1855. 387
r — — i\
ELEMENTS FOR FACILITATING THE CALCUI-ATIUN OF OCCULTATIONS
OF PLANETS AND STARS BY THE MOON, FOR TUE YEAR 1855,
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388 OCCULTATIONS, 1865.
ELEMENTS FOB FACILITATING THE CALCULATION OF OCCULTATIONS
OF PLANETS AND STARS BY THE MOON, FOB THE TEAB 1865.
4
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OCCULTATIONS, 1855. 389
ELEMENTS FOB FACIUTATING THE CALCUI-ATION OF OCCULTATIONS
OF PLANETS AND STABS BY THE MOON, FOB TUB YEAR 1855.
1
St
c
1
6
Limitinr
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6-
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Y
P'
q'
ix^aln
Logcoa
D
kug 19
8 Libra
► —90
h. m. 8.
— 3 32 19
—1.1267
0.5232
—.2167
—9.4237
9.9842
19
u Libr»
H
—25
—90
1 25.9
— 3 26 49
-1.0990
.5229
-^167
—9.4252
.9841
19
B.A.O. 4896
6
-+-73
— 6
1440
— 3 914
+0.7086
.5182
—.2160
—9.4706
.9802
19
i' Libra
*h
-+-71
-¥■ 1
1141.0
-h 6 28 50
-H).8I32
.5265
—.2030
—9.5179
.9751
20
dScorpii
2i
H-23
—52
9 40.0
-f- 3 43 42
-0.1313
.5502
—.1659
—9.5774
.9666
20
19 Scorpii
'*
-1-37
—34
18 26.9
—11 48 10
-+^.1754
.6572
—.1481
-9.6062
.9613
20
Q Ophiacbi
22 Ophiuchi
5
—19
-90
20 34.6
— 9 45 3
—0.8726
.5638
-.1430
-9.5937
.9637
20
5
-+-61
— 9
22 29.5
— 7 54 24
-H).6142
.5594
—.1390
-9.6225
.9580
21
25 Scorpii
6
-»-35
—33
5 25.5
- 1 13 52
-•-0.1927
.5679
-.1223
—9.6303
.9563
21
18 Ophiachi
6
21
—90
6 38.0
— 043
—0.8684
^740
—.1196
-9.6158
.9594
21
B.A.C. 5709
6
—20
—90
10 47.5
+ 3 55 58
-0.8341
.5774
—.1091
-9.6238
.9577
21
26 Ophiachi
6
—28
-90
10 52U}
+ 4 033
—0.9508
.5780
—.1091
-9.6221
.9581
21
A Ophiuchi
5
H-28
—87
16 58.1
-♦- 9 52 14
-hO.1087
.5785
—.0927
—9.6477
.9522
22
3 Sa^ittarii
5
-*-53
—10
5 30.2
— 2 534
+0.5906
Ji964
—.0559
—9.6683
.9469
22
B^.a 6127
5
■f^2
-1-14
13 19.5
-♦- 5 24 30
-M).9493
.5891
— X)827
—9.6782
.9440
22
B.A.C.6194
^
-18
—83
17 7.9
+ 9 326
—0.5492
.5995
-.0203
-9.6584
.9496
23
tf> Sagittarii
^
—13
—81
3 25.8
— 5 432
—0.5373
.6041
+.0139
-9.6590
.9494
23
n Sagittarii
^
—49
—90
7 1.7
— 1 37 48
-1.1340
.6083
-I-.0251
-9.6490
.9519
23
T Sagittarii
H
-MO
—20
11 18.0
-h 2 27 38
-4-0.4159
.6010
-4-.0392
—9.6697
.9465
23
BJLC. 6628
6
H-62
-f-18
17 47.0
+ 8 40 8
+1.0012
.5984
-+-.0616
—9.6736
.9454
23
B.A.C. 6666
6
-4-34
—28
19 46.8
-t-lO 84 51
-1-0.2680
.6026
-I-.0682
—9.6610
.9488
24
<» Sagittarii
5i
-1-26
—40
5 22.6
— 4 13 50
+0.0636
.6008
-4-.0981
—9.6522
.9512
24
A SM^ittarii
B.A.C. 7177
5
-»-50
—16
6 32.7
— 3 646
+0.4903
.6002
-h.l024
—9.6508
.9515
24
6
-♦.65
H- 8
19 13.2
-+- 9 145
-hO.8974
.5950
-h.l419
-9.6327
.9558
25
BA.C.7197
6
-♦-10
—65
1 6.8
— 9 19 24
—0.3538
.5983
+.1574
—9.5964
.9632
25
B.A.C. 7237
6
+66
-»-13
2 51.6
— 7 38 54
+0.9703
.5911
-h.l636
—9.6147
.9597
25
/ Capri cor.
6
-h 4
—76
8 51.5
— 1 53 44
-0.5047
.5946
-♦-.1800
-9 5692
.9679
25
27 Capricor.
6
—29
-90
9 14.7
— 1 31 31
-1.0641
.5983
-4-.1812
-9.5570
.9698
25
tp Capricor.
6
-h 5
—78
11 35.8
-f- 0 43 55
—0.5148
.5931
+.1869
—9.5.592
.9694
25
33 Capricor.
6
-1-49
—26
14 54.4
-1-3 54 28
-4-0.3299
.5875
-4-.1952
-9.5633
.9688
25
35 Capricor.
6
H-68
H- 8
16 6.5
-<- 6 3 41
-4-0.9126
.5842
+.1975
—9.5701
.9677
25
37 Capricor.
6
-f-57
—19
19 6.5
-h 7 56 28
-1-0.4496
.5844
-4-.2053
-9.5488
.9710
25
• Capricor.
4^
+34
—42
19 59.5
-h 8 47 23
+0.0278
.5853
+.2072
— 9Ji363
.9727
25
X Capricor.
5
-1-29
—48
22 11.7
-hlO 54 22
-0.0857
.5845
-^.2119
—9.5239
.9743
25
B.A.C. 7550
6
4-70
— 5
22 24.7
+11 6 52
-4-0.7020
.5817
+.2126
—9.5397
.9722
26
29 Aquarii
6
-h27
—62
6 8.3
— 5 27 39
—0.15.55
.5793
+.2284
—9.4819
.9791
26
56 Aquarii
6
+54
—28
17 33.5
-+- 5 31 19
-hO.2954
.5702
+.2491
-9.4219
.9843
27
74 Aquarii
6
4-35
—48
3 18.7
— 9 5 12
-00798
.5645
-H.2623
—9.3313
.9898
27
tp^ Aquarii
4i
-H3
—42
12 54.4
+ 0 941
-+^.0381
.5580
-I-.2729
-9.2339
.9935
27
/ Aquarii
H
—25
-90
13 21.4
+ 0 35 40
—1.1708
.5598
+.2732
—9.1702
.9952
27
1^ Aquarii
4i
-+-62
—24
13 48.3
-4- 1 1 38
-M).3786
.5571
+.2737
—9.2382
.9934
27
tu* Aquarii
5
+80
-*- 6
14 15.5
+ 1 27 49
-H).9226
.5560
+.2738
-9 2565
.9928
28
27 Pisciaro
H
-1-38
—48
7 48.0
— 5 36 36
—0.0916
.5480
+.2842
—8.8805
.9987
28
29Pi8ciain
5^
-Hd2
—55
9 12.5
— 4 15 4
-0.2090
.5479
-h.2846
—8.8242
9.9990
28
lOCeti
6
+46
—41
20 24.3
-»> 6 33 49
-M).0466
.5437
+.2858
-8.1711
0.0000
29
ePiscium
H
-h32
-56
15 32.0
-h 1 2 57
-0.2293
.5385
-I-.2791
+8 9801
9.9984
30
0 Piscium
5
+90
-♦. 4
8 33.8
— 6 29 16
-H).8690
.5396
+ 2656
-4-9.1663
.9953
30
54Ceti
6
+24
—62
11 4.5
— 4 333
—0.3805
.5374
-h.2631
H-9.2534
.9929
31
/I Arietis
H
+18
—63
18 44.1
— 2 17 36
-04815
.5403
+.2271
-4-9.4624
.9809
31
Q* Arietis
6
-f- 4
—72
16 40.5
-h 0 32 45
—0.7314
0.5401
+.2218
-1-94839
9.9789
390 OCCULTATIONS, 1855.
ELEMENTS FOB FACILITATING THE CALCULATION OF 0CCULTATI0N8
OF PLANETS AND STARS BY THE MOON, FOB THE YEAR 1855.
Due.
Auf.31
31
31
Sept. 1
1
1
1
1
S
3
4
4
5
5
5
5
5
5
5
Sur'aName.
p* Arietis
53 Arietis
d Arietis
T* Arietis
r* Arietis
65 Arietis
33 Tanri
A» Tanri
A« Tauri
irTaori
136 Taari
49 Aorigs
54 Aarigs
47 Geminor.
53 Qeminor.
I Oeminor.
6* Geminor.
B. A.C. 2472
V Geminor.
c Qeminor.
<P Geminor.
a»* Cancri
«//• Cancri
X Cancri
I/* Cancri
S Cancri
79 Cancri
B.A.C. 3138
17 Leonis
38 Virginis
ir Virginia
48 Vir^nis
i Virginia
m Viiiginis
I Virginia
8L{bm
a Libne
B.A.C. 4896
I* Libne
S Scorpii
19 Scorpii
Q Ojphiachi
22 Scorpii
25 Scorpii
18 Ophinchi 6
B.A.C. 5709 6
26 Ophinchi 6
A Ophinchi 5
3 Safrittarii 5
B.A.C. 6127 5
Limiting
Parallels.
North-
era.
o
■4-24
+90
-h 7
—43
4-3
-h 7
■4-12
4-90
-f-90
+90
-h32
4-22
-H 5
-1-70
— 5
—17
—45
—61
-♦-25
-h87
— 7
-1-63
-1-27
-f-90
-4-49
-1-22
-1-21
-M9
+38
Sowlh-
em.
—55
+10
—71
-69
—69
—69
—62
+32
-4-43
-♦-29
—28
—36
—56
-I- 3
—62
—62
—62
—38
+10
—63
— 7
+17
—22
—51
—53
—26
—43
—83
—90
—54
—90
+11
—52
+34
—15
+ 6
—54
—48
+63
+67
+12
+25
—36
-1-48
+24
—38
—36
—46
+16
+40: —22
+62 1 0
—90
—90
— 18
—12
—66
—47
—90
—22
-45
—90
—90
-90
—50
Waah-
inftoo
Mean
Time of
h. m.
16 56.6
21 55.9
23 46.4
4 3.6
4 45.5
5 30.2
19 56.5
23 19.4
23 36.1
22 32.7
22 15^
16 21.6
18 14.9
8 16.2
10 15.9
14 37.9
16 27.0
16 49.8
19 13 6
22 57.5
8 12.0
6 38JS
11 2.4
15 46 3
20 56.4
15 15.2
15 44.5
17 22.6
20 50.8
16 53.0
20 29.0
22 56 7
2 11.8
19 31.4
15 18.3
7 17.0
7227
7 41.0
17 43JS
16 1.2
0 58.1
3 8.4
5 6.7
12 11.0
13 25.3
17 40.9
17 46 J
0 1.2
12 54.6
20 58.3
At Waahincioo Mean Time of 6 .
H
h. m. f.
+ 0 48 18
+ 5 37 27
+ 7 24 9
+11 32 31
—11 46 57
-11 3 47
h 2 52 26
h 6 816
h 6 24 21
h 4 32 15
h 3 23 61
- 3 848
- 1 19 34
-1147 51
- 9 62 24
- 5 39 29
- 354 7
- 3 32 6
- 1 13 18
h 2 22 58
- 6 28 47
h 9 48 17
- 9 56 37
- 5 22 9
- 0 22 13
- 6 38 28
- 6 10 3
- 4 35 4
- 1 56 23
- 8 25 25
-4 65 17
. 2 31 33
h 0 38 15
- 630 54
-11 17 58
h 4 11 65
h 4 17 27
h 435 9
— 941 8
+11 52 25
3 29 27
1 23 44
0 29 21
7 19 17
8 30 49
—0.3623
+0.8502
—0.6828
—1.3038
-0.7473
—06680
—0.5855
+1.0982
+1.2139
+0.9254
—0.1936
—0.3867
—0.6720
+04111
—0.8314
—0.989.5
—1.2399
-1.2650
—0.3245
-1-0.6012
—0.8598
-H)-3167
—0.2961
-H).8081
+OX)878
—0.3923
—04190
+00954
—0.1093
-(-Oi)103
—0.6252
—14171
—0.1820
— 1XM14
—0.6673
—1.3589
—1.3305
-M)4881
-M).5903
-0.3644
•3411
Mh9
Mi2
JM03
.6426
.6430
.6468
.5535
.5540
.6686
.6549
.6520
.6605
.5618
.6461
M3\
.5409
.6409
.6444
.5463
.6386
.5416
.5373
.6388
.6335
.5217
.6211
.5225
.5089
.4900
.4911
4918
4921
4993
.6094
.5217
.5214
.6176
.5247
.6461
—00531 .5523
-1.1133 .55861
-H)^928, .6542
—00308 MM
—1.1051 6682
—11 23 1 —1.0688 .5716 —.1072
—11 18 20—1.1871' .6721 —.1066
— 6 17 5—0.1105 .5712 —.0908
7 6 31 -(-0.3872| .5781 —/)550 —9.6684 .9468
— 990 -hO.7582 0.5803—0310 —9.6783 9.9440
+.2213
•f-.2128
-^.2093
-I-.2022
-t-.1999
+.1980
+.1690
+.1624
+.1610
+.1067
+.0465
.0000
—.0051
—.0411
—.0460
-.0573
-X)619
-.0625
-.0671
-i)770
-.0863
-.0960
-.1042
-.1148
-.1253
-.1603
-.1614
-.1633
-.2056
-.2576
-.2570
-.2566
-.2555
-.2481
-.2342
-.2175
-.2171
-.2162
-.2028
-.1653
-.1466
-.1427
-.1378
-.1215
-.1173
AnD
•in
+94767
-1-94738
+9.6166
-t-9.5468
.f-9.53d6
+9.6399
-4-9.5874
+9.5676
+9.5663
-4-9.6230
-4-9.6654
-1-9.6735
-^9.6770
+9.6584
+9.6737
-t.9.6728
+9.6747
-4-9.6747
-h9.6603
+9.6437
+9.6590
+9.6385
-4-9.6410
-f-9.6173
-f-9.6188
+9.6851
-f-9.6844
+9.5713
+94773
—8.6837
—8.7224
—8.7016
—8.9196
—9.1418
—9.3421
—9.4239
-9.4252
-94705
—9.5179
ooUd
9.9796
.9799
.9752
J»7I3
.9724
.9722
J648
.9681
.9683
.9579
.9477
.9454
.9444
.9496
.9453
.9456
.9451
.9451
.9490
.9532
J494
.9545
.9539
.9591
.9588
.9652
J654
.9676
.9795
J995
.9994
.9994
.9985
.9958
.9892
J842
.9841
.9802,
J761 I
—9.6774 .9666
—9.6062 .96131
—9.5938 .9637
-9.6225
-9.6303
-9.6168
-9.6238
-9.6221
-9.6478
.9580
.9663
.9694
J577
J581
.9522!
OCGULTATIONS, 1855. 391
ELEMENTS FOR FACILITATING THE CAiCUI.ATlQN OF OCCCL TATlOKS l
OF PLANETS AND STARS BY THE MOON, FOR THE YEAR H&i. |
^
Wa^li-
Ai WuUlnpoD Mts^ T}ni« oT £ <
D^ii.
Qiar'a NfunA.
3
AfiMn
ci^r ■ j^imni
H
Ncirih-
•rn.
0
-24
Tim* of
H
y
P'
9'
D
S«pt.19
B.A.C.ei!>4
—90
0 5X9
h. ni. B
— 5 22 47
-0.7G07
0.5902
-.0189—9,6584
9.9495
Ifl
ty SapUuirii
3i
"23
—90
1 1 .^3.o
+ 4 50 27
— O,730l .5044|+,0142 —9.6591
.9494
IP
r S%nttftrii
34
-h30
— ;jo
1941 1
—11 21 26
H-0.2378
.5905 +,0399 — 9.66^9
.9464
20
B,A.C. r*62&
6
+62
+ 6
2 22.7
-* 4 &fi 20
+0 8399
.5 J? 80 +.Ori97 —9.6736
.9454
20
D^.C. 5666
6
+25
— 3e
4 26.6
— 2 57 31
+0.0973
.5919
+.0681
-9.6612
.9468
20
^ Sa|:ittarii
54
+31*
—26
14 22.0
+ G 33 27
+0.3132
.5903
+.0974
-* 9.6523
,9511
m>
6 SaiHttaHi
5
-*-62
-Ml
14 47.0
+ 6 57 27
+ 1.23U
.5853
+.0996
—9,6651
*9477
20
A SajritUirii
5
-Ml
—25
15 34.4
+ 7 42 55
+<X.1370
.5902 +.1024
-9.6508
.9515
21
B^,C. 7077
(i
+65
0
4 4<K2
- 3 43 17
+0J672
.5S46;+.1412
-9.6329
.9557
21
B,A.a7l97
6
-h 3
—76
10 44.9
+ 2 G 45
— O.4920
.5882
+.1590
- 9.5965
.9632
21
B.A.C. 72:17
6
+66
+ 5'
12 32.9
+ 3 50 27
+0J533
.5811
+.1634
—9.6148
.9596
21
/ Cttpric<>r.
6
— 2
— &S
18 43.e
+ 9 46 27
-0.6237
,5781
+.1773—9.5693
.9679
21
27 Capriwr.
3
—40
—m
10 74
+10 9 20
—I 1943
,5878
+.1798—9.5570
.9^98
21
ip CflpiiLXir.
e
— 2
—m
21 32.7
— 11 31 lOl
-0.6371 .5834
+,1865-9,5592
.9694
22
33 Capricor.
6
+43
^32
0 56.8
— 3 13 1
+0J227
.5784
+4940
-9.5633
.9688
22
35 CapriMjf.
6
+68
+ I
2 UX9
— 7 350
+0.ai62
.6760
+.1963
—9.5701
.9677
22
37 Copricor.
6
+51
—25
5 15,6
— 4 6 16
+0^514
.5761
+.2035—9,5488
,9710
22
i Cttpruor.
44
+20
— 4«
6 1 0.0
- 3 13 59
—0.0715
.5772
+.2<.^62'-9,53ft3
,9727
22
K Cdfjricor.
5
+24
—54
E 25.6
— I 3 37
-0.1822
.57G1
+.2116 -9.5239
.9743
22
B.A-C. 7S50
6
+67
-n
8 38.9
— 0 50 50
+0.6141
,5729
+J2116
-9.5398
.9722
22
20 Aqtmrii
6
+24
-57
16 33.5
+ 6 45 3&,
—0^359
.5720
+,2280
-9.4819
.9791
2.'^
5(j Aipiani
6
+7*
+37
8 25Ji
— 1 57 42
+ 1.3044
.5592
+ J^554
-9.4219
.9843
23
74 Amiiirii
6
+34
—50
H 6.3
+ 3 30 41
-0.1147
.5603
+.2G23
—9.3313
,9898
2.T
f^ ' A(]U!irii
44
+43
-42
23 48.3
—11 8 13
+0.0260
.5550
+.2738
— 9.a3a9
.9935
24
/ Aqunrii
Sd
—26
-90
0 J 5.4
—10 42 1
—1.1866
.5571
+.2741
—9.1701
.9952
S4 t^Ariaant
H
+62
—25
0 42.7
—10 15 46
+0-3G93
.5540
+.2746
-9.2382
.9934
24'
0^ Aquarii
5
+B0' + 5
I lOJi— 9 49 20
+0.01 G2
.5526
+.2747
—92565
.9928
24
27 Pi!*ckim
3
+40
^47
IS 46.2
+ 7 950
—0.0616
MS4
+.2864
-8.8604
.9987
24
20 Pisdum
54
-1-34
—53
20 10.5
+ 831 16
-OJ757
.5491
+.2870
-8,8050
9.9991
25
U) Ccti
&
-1-40
-37
7 10.5
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40 J 053
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+Jr89l
—8.1709
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23
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H
+37
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2 14.2
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-0.1324
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+,2839
+8.9304
9.9984
2S
h Pi^itira
6
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—83
4 374
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+.2819
+ 9,0741
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S6
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5
+%
-1-11
18S7J)
+ 5 42 2
+0.9854
.5460
+.270G
+91663
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26
54 Ccti
G '
+Sl
-55
21 24.4
+ a 4 25
—0.2484 ,5445
+.2684
+9,2535
.9929
27
40 Arletii
6
—30
-^72
23 1.6
+ 8 48 35
-1,2280 ,5466
+.2324
+94825
.9700
27
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54
+27
—53
23 22J
+ 9 85G
— 0..1139 3492
+.23221+9.^625
.9809
S8
y* Ariedi
6
+ 14
-67
2 \^3
+ 11 54 TO
^0.5578, .5492
+.2272' +9.4840
.9789,
£8
?* ArititU
6
+^
— >fi
2 29.5
— 11 50 45
-01030 .5505
+.2255; +9.4767
.9796
98
! 53 Afietiii
6
+90
+ 10
7 20.1
— 7 10 20
+L0fJ90l .5553
+itl 84 +9.4738
,9799
SS
J ArietU
4|
+17
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0 7-n
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-0.5035 .5511
1
+.2143V9.5164
9752
2S
jr' Ariotis
5
—31
-69
13 1G.9
— I 26 14
—1.1125 .5499
+.20GG
+9.5469
.9713
2&
T* Arietift
S
+ia
-64
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—0.5646 .5519
-H.2042
+9 5387
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28
63 ArietlB
G
+18
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14 40.9
— 058
—0.4842 .5523
+.2026
+ 9.5400
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29
32 Taiin
6
+63
--15
4 36.H
—10 39 13
+0.3115' .5591
+.1727
+9.5746
J670
2^
33 Tfturi
6
+23
-51
4 41.1
-10 35 5
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+.1723 +9.5874
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29
A» Tfluri
H
+00
-t-49
7 57.0
— 7 25 21
+1.2699, -5634
+.1650+9 5676
.9681
30
k Tfluri
6
+00
+39
6 31.3
- 9 41 28
-1-1.1051 .5G71
+ 1 083! +9.6231
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OCL 1
136 Tjmri
5
+44
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1
40 Aunt^
^d
+32
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23 23.r+ 5 40 18
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2
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G
+1G
—12
I 14.4^+ 7 27 34
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392 OCCULTATIONS, 1855.
ELEMENTS FOB FACILITATING THE CALCULATION OF OCCULTATIONS
OF PLANETS AND STARS BY THE MOON, FOR THE YEAR 1865
•
Dite.
Sur*fName.
1
Limiting
PanOlele.
Waeh-
hififton
Mean
Time of
6^
1
1
6
North-
ern.
South-
ern.
H
r
P'
^
CM D
Ocu 2
47 Qeminor.
+8?
+.i
h. m.
15 3.1
h. m. 8.
— 3 13 28
+0.5887
0.5553
-.0421
+9.6584
9.9496;
2
53 Geminor.
6
-h 7
-57
17 1.1
— 1 19 35
—0.6462
.5483
-.0475
+9.6736
.9454
2
1 Geminor.
4
— 3
-62
21 20.0
+ 2 50 10
—0.8050
.5460
—.0572
+9.6728
.9456
2
6* Geminor.
H
-50
—62
22 54.9
-♦- 4 21 44
— 1.^618
.5426
—.0618
+9.6775
.9442
2
6* Geminor.
H
—22
-62
23 7.9
+ 4 34 17
— li)556
.5434
—.0629
+9.6746
.9451
2
B. A.C. 2472
6
-24
—62
23 30.4
+ 4 56 3
—10804
.5434
-.0629
+9.6746
9451 i
3
V Geminor.
5
-1-35
—28
1 52.6
+ 7 13 18
—0.1473
.5464
—.0690
+9.66a}
.9490
3
c Geminor.
6
+90
+19
5 34.3
+10 47 19
+0.7713
.5489
—.0774
+9.6438
.9532
3
fP Geminor.
5
-h 4
-62
9 46.5
-999
—0.6931
.5396
— X)880
+9.6592
.9493
3
cu» Cancri
6
-♦-76
+ 2
13 11.4
— 5 51 17
-H).4833
.5430
— X)954
+9.6385
.9545
3
«//• Cancri
4
H-36
—31
17 333
— 138 1
—0.1289
.5386
—.1054
+9.6410
.9538
3
X Cancri
6
H-90
+27
22 15.7
+ 2 54 46
+0.9668
.5393
-.1157
+9.6173
.9591
4
v* Cancri
6
-h59
— 14
3 24.2
-h 753 8
+0.2462
.6337
-.1262
+9.6188
.9588
4
= Cancri
5
H-30
—43
21 39.9
+ 133 44
-0.2477
.5204
—.1614
+9.5852
.9652 ,
4
79 Cancri
6
H-29
—45
22 9J2
+ 228
—0.2749
.6205
—.1619
+93844
.9654 1
4
B.A.C. 3138
6
H-58
— 19
23 47.1
+ 3 37 0
+0.2365
.5209
—.1649
+9.5413
.96751
6
ij Leonis
H
-M4
—36
3 158
+ 6 16 3
-H).0028
.5055
—.2058
+9.4773
.9795 ,
6
42 Leonis
6
-4-63
—20
10 58.2
—10 14 53
-H).3334
.5026
—.2155
-♦-9.4323
.9835;
6
B.A.C. 3579
6
-K9
—16
14 43.2
— 6 36 20
+0.4289
.5015
—.2188
-»-9tl52
.9848.
6
1 Leonis
6
-H6
—36
16 32.4
— 4 50 14
-H)X)338
.4997
-.2218
+9.4095
.9852
8
r Virrinis
B.A.C. 4896
^
—43
—83
9 18.1
+10 48 19
—1.3699
.4880
— A529
+9.1064
.9964 1
12
6
+58
—22
\3 23J0
—11 55 29
+0.4056
.5212
—.2186
—9.4706
.9802'
12
1* Libras
<i
-1-62
—17
23 20.8
— 2 16 33
+0.5003
.5281
—.2048
-93179
.9750
13
a Scorpii
H
-H 6
—74
21 31.2
— 4 50 13
—0.4668
.5488
—.1660
—93774
.9666
14
19ScorpU
H
-h20
—53
6 27.1
+ 3 46 58
-0.1592
.5545
—.1472
—9.6062
.9613
14
q Ophiachi
22 Scorpii
5
—46
—90
8 37>l
+ 5 52 39
—1.2224
5603
—.1426
-93939
.9636 '
14
A
-M2
—28
10 34.3
+ 7 45 24
-M).2876
.5559
—.1381
—9.6226
.9580
14
25 Scorpii
6
-♦-27
—52
17 40.7
— 9 23 38
—0.1403
.5627
—.1213
—9.6302
.9563
14
18 Ophiachi
B.A.C. 5709
6
—49
-90
18 55.2
— 8 11 54
—12193
.5681
—.1186
—9 6158
.9594
14
6
—46
—90
23 11.9
— 4 440
-1.1839
.6709
—.1078
—9.6239
J577J
15
A Ophiochi
5
-♦-11
-57
5 34.2
+ a 319
—0.2223
.5711
— X)904
—9.6478
.9522 >
15
43 Ophiachi 6
-^62
-h36
8 46.4
-H 5 8 16
+1.1921
.6661
-.0823
—9.6716
.9459,
15
3 Sagittarii
B.A.C. 6127
5
-•-34
—28
18 34.6
— 926 7
-M).2783
.5756
-.0555
—9.6684
.9469!
16
5
-K55
— 6
3 44.5!- 135 22
-H).6525
.6769
-.0321
—9.6782
>U0
16
B.A.C. 6194
6i
—31
—90
6 43.7
+ 2 14 25
—0.8800
.5861
— X)202
—9.6684
.9495
16
5P SagitUrii
H
—30
—90
17 34.3
-11 20 51
-08584
.6890
+.0133
—9.6691
.9494
17
17
r Sogittarii
B.A.C. 6666
H
6
+24
+19
—86
—44
1528
9 52.3
— 3 22 13
+ 4 15 35
+0.1305
—0 0091
.5844
.5852
+.0395
+.0653
-9.6699
—9.6612
.9464 1
.9488'
17
o Sagiuarii
H
-^34
-32
21 2.9
— 8 58 0
-M)-2125
.581 S
+X)981
—9.6523
.9511
17
6 Sagittarii
5
-♦-62
+30
21 28.7
— 833 16
+1.1439
.5771
-•-X)980
-9.6651
^77
17
A Sagittarii
B.A.C. 7077
5
+35
-30
22 17.5
— 7 46 26
-M)2372
.5817
+.1010
—9.6608
.9615
18
6
+64
— 6
11 47.7!+ 5 11 53
+0.6792
.5753
+.1376
—9.6329
9557
18
B.A.C. 7197
6
— 2
—86
18 46—11 14 7
—0 5977
.6780
-♦-.1563
—9.6965
.9632
18
B.A.C. 7237
6
+66
— 1
19 56.31—10 58 28
-M)7770
.6711
+.1615
-9.6148
.9697 !
19
/ Capricor.
6
— 8
-90
2 19.9
— 4 49 34
—0.7350
3746
+.1761
—93693
.9679
19
27 Capricor.
6
-55
-90
2 44.7
— 4 25 41
-1.3074
3772
+.1761
—93670
.9698'
19
tp Capricor. 16
— 7
—90
5 15.0
— 2 1 71-07389
3729*-f..I832: -93592
J694
19
3.1 Capricor. 6
+39
-36
8 46.4 + 1 22 20 -♦-0.1367
3683 +.1901 — 9..^6.^4
J688
19
35 Capricor ,6
+67
-3
10 3.2 + 2 36 11 +0.7413
3647i+.1947|-9 570l
J677
19
37 Capricor, 6
-M7 -29
13 14.6|+ 5 40 27
^0.2704
0.5651
+J0I2|— 93488
9.9710
OCCULTATIONS, 1855. 393
ELEMENTS FOE FACILITATING THE CALCULATION OF OCCULTATIONsl
OF PLANETS AND STARS BY THE MOON, FOR THE YEAR 1856
1
LUniting
P&rallAla.
Wash-
ington
ivfean
Hmeof
Date.
Star's Name.
1
41
North-
ern.
South-
ern.
H
r
P'
q'
^xT"
I^co.
Oct. 19
• Capricor.
o
4-25
o
—53
h. m.
14 10.9
h. m. B.
-h 6 34 43
—0.1593
0.5661
4-.2033
—9.5364
9.9727
19
X Capricor.
B.A.C. 7550
5
-h20
—60
16 31.4
-h 8 50 0
—0.2703
.5655
4-.2075
—9.5239
.9743
19
6
-h63
—15
16 45 2
4- 9 3 17
-1-0.5392
.5627
-h.2075
—9.5399
.9722
20
29 Aqnaril
6
-hl9
—63
0 57.0
— 631
—0.3200
.5608
4-.2252
—9.4819
.9791
20
56 Aqaarii
6
H-47
—35
13 0.7
-h 6 34 39
-♦-0.1751
.5533
4-^54
—9.4219
.9843
20
74 Aqnarii
6
-h31
—54
23 15.2
— 9 32 27
-0.1780
.5499
4-.2592
-9.3313
.9898
21
V* Aqaarii
4i
H-40
—45
9 16.0
-H 0 730
—0.0262
Mb^
-h.2702
—9.2339
.9935
21
X Aqnarii
6i
—32
—90
9 44.0
-h 0 34 32
—1.2552
.5480
-h.2702
—9.1701
.9952
21
V^ Aqnarii
<k
-1-59
—27
10 12.1
4- 1 138
-H).3227
.5450
-h.2711
—9.2382
.9934
21
y/* Aqaarii
5
4-80
4- 2
10 40.3
4- 1 28 54
44).8768
.5442
-h.2711
—9.2565
.9928
22
27 Pisciam
5
4-38
—49
4 45.8
— 6 224
—0.0959
.5413
4-^836
—8.8805
.9987
22
29Pi8cittm
51
4-33
—55
6 12.3
— 3 38 53
-0.2098
.5409
4-.2844
—8.8247
9.9990
22
lOCeti
6
-M8
—39
17 35.8
-h 7 2144
-H)0838
.5399
4-.2869
—8.1699
0.0000
23
« Pisciam
&i
4-37
—50
12 47.8
4- 1 55 11
—0.1352
.5405
-h.2832
-h8.9304
9.9984
23
C Pisciam
6
-43
—83
15 12.5
4- 4 15 2
—1.3747
.5398
4-.2818
4-9.0742
.9969
24
0 Pisciam
5
4-90
-M2
6 37.3
— 5 49 22
4-0.9995
.5455
4-.2713
4-9.1662
.9953
24
54Ceti
6
4-32
—54
8 5.1
— 3 26 40
—0.2341
.5445
-h.2684
-h9.2536
.9929
25
7 Arietis
H
-♦-29
—51
9 56.7
— 2 28 49
—0.2796
.5531
4-.2329
4-9.4625
.9809
25
^•ArietU •
6
4-16
—65
12 46.2
4- 0 14 37
—0.5210
.5527
-h^296
4-9.4840
.9788
25
^ Arietis
6
4-35
—44
13 1.6
H- 0 29 32
—0.1573
.5544
-f-^277
-h9.4768
.9795
25
53 Arietifl
6
-<-90
-h22
17 48.8
4- 5 6 28
4-1.0416
.5595
-h^206
4-9.4739
.9799
25
a Arietis
4*
4-19
—60
19 34.6
-♦- 6 48 31
—0.4624
.5555
4-^167
^-9.5166
.9752
25
T» ArictU
5
—18
—69
23 40.6
4-10 45 39
—1.0664
.5550
4-^88
-h9.6469
.9712
26
T« Arietis
6
4-16
—62
0 20.7
4-11 24 20
—0.5193
J5576
-h.2067
4-9.5387
.9724
26
65 Arietis
6
-1-20
—57
1 3.4
—11 54 31
—0.4402
.5582
-h.2046
-h9.5401
.9722
26
32Taari
6
4-66
—12
14 44.7
4- 1 16 50
-1-0.3570
.5654
-h.l762
4-9.5747
.9669
26
S3 Taari
6
4-25
-49
14 48.9
4- 1 20 52
-0.3441
.5627
4-.1762
4-9.5875
.9648
26
A»Taari
^
4-90
-♦-56
18 1.9
4- 4 26 43
4-1.3070
.5709
4-.1665
-h9.5676
.9681
27
ifc Taari
6
4-90
-M3
16 5.3
-h 1 40 37
4-1.1490
.5754
-h.l097
4-9.6231
.9579
28
136 Tanri
5
-H7
—15
14 39.3
— 0 36 40
4-0.0564
.5702
-h.0483
-h9.6655
.9476
29
54 Aqaarii
6
-^20
—38
9 47.7
— 6 11 16
—0.4173
.5623
—.0051
4-9.6771
.9443
29
28 Geminor.
6
—42
—61
11 57.5
— 4 6 17
—1.2160
.5571
—.0134
4-9.6871
.9413
29
47 Geminor.
6
4-90
-hi 5
23 18.8
-♦- 650 3
-M).6412
.5610
—.0428
4-9.6583
.9495
90
53 Geminor.
6
-Ml
—52
1 14.5
-h 8 41 35
—0.5824
.5543
—.0481
4-9.6737
.9453
30
c Geminor.
4
4- 1
—62
5 28.4
—11 13 42
—0.7401
.5513
—.0584
4-9.6728
.9456
80
ft" Geminor.
H
—37
—62
7 2.2
— 9 43 10
—1.1929
.5478
—.0634
4-9.6774
.9442
30
6^ Geminor.
^h
—16
—62
7 16.0
— 9 29 51
—0.9884
.5490
—.0634
4-9.6746
.9451
30
B.A.C. 2472
6
—18
—62
7 39.8
— 9 647
—1.0130
.5490
-.0634
-h9.6746
.9451
30
V Geminor.
5
4-39
—25
9 56.0
— 6 55 38
—0.0883
.5513
—.0710
-h9.6602
.9490
30
c Geminor.
6
-<-90
-♦-22
13 33.7
— 3 25 33
4-0.8228
.5540
—.0783
4-9.6438
.9532
30
tp Geminor.
5
4- 9
—58
17 41.7
4- 0 33 48
—0.6219
.5450
—.0879
-h9.6590
.9494
30
»* Cancri
6
-1-81
-♦- 4
21 3.3
4-3 48 23
4-0.5365
.5474
—.0972
4-9.6385
.9549
31
i^Cancri
4
4-40
—28
1 2\JS
4- 7 57 45
—0.0719
.5417
—.1063
4-9.6410
.9538
31
a Cancri
6
4-90
4-31
5 59.8
—1133 23
-hi .0160
JW25
—.1172
4-9.6173
.9591
31
i/» Cancri
6
4-62
—11
11 4.5
— 6 38 53
4-0.2992
.5360
—.1277
-h9.6188
.9588
Not. 1
$ Cancri
5
4-33
—40
5 9.6
-hl0 51 4
—0.1951
.5219
—.1608
-h9.5852
.9652
1
79 Cancri
6
4-32
—42
5 88.7
4-11 19 14
—0.2225
.5216
-.1627
4-9.5843
.9654
1
B.A.C. 3138
6
4-61
—16
7 15.9
—11 6 36
-hO.2859
.5225
—.1651
-h9.5713
.9675
2
ij Leonis
31
+46
—34
10 37.6
-8 34 26
-h0.0468
Ji046
—.2061
-h9.4773
.9795
2
42Leoni8
6
4-66
—18
18 19.5
— 1 553
-hO.3756
0.5019
—.2150
4-9.4324
9.9835
50
394 OCCULTATIONS, 1855.
ELBBiENTS FOR FACILITATING THE CALCULATION OF OCCULTATIONS
OF PLANETS AND STARS BY THE MOON, FOR THE YEAR 1855.
i
Umitlns
Panlleb.
Wash-
infton
Mean
Time of
6-
At Waahinston Mean Time of i .
Date.
Sur'iName.
II
1
6
North-
em.
South
em.
H
Y
P'
^
iS'^
^
Nor. 2
B.A.C. 3579
0
-h58
0
—25
h. in.
22 4.1
h. ro. s.
-h 2 32 16
H-0.2521
0.4995
—.2194
4-94152
9.9848
2
1 Leonifl
6
-M8
—34
23 53J5
+ 4 18 24
H-0.0757
4989
—.2213
H-93999
.9858
4
I' Virginia
BJL.C. 3996
^h
—38
—83
16 43.7
— 3 58 27
—1.3406
4860
—.2525
H-9.1063
.9964
4
6
H-27
—61
18 34.3
— 2 10 48
—0.32.54
4869
—.2532
H-9.0188
.9976
5
6 Vii^ginis
6
H-34
—53
0 41.0
H- 3 45 58
—0.1859
4870
—.2555
H-8.8906
.9987
6
10 Virginis
6
^-63
-27
6 10.4
H- 9 633
H-03332
4874
—.2575
H-8.6744
9.9995
6
Y Virginis
B.A.C. 4277
n
-4-11
—85
0 11.5
H- 2 38 37
—0.6412
4898
—.2602
— 8X)578
0.0000
6
6
-4-3
—90
1 14.0
H- 8 39 26
—0.7780
4902
—.2602
—8.1818
OJOOOO
6
38 Virginis
i: Virginis
6
-M4
—43
6 34.4
H- 8 51 6
H-0.0091
4914
—.2600
—8.6834
9.9995
6
6
-4-10
-86
10 8.2
—1140 55
—0.6465
4931
—.2596
—8.7200
.9994
6
48 Virginis
6
—47
-90
12 28.9
— 924 9
—1.3954
.4941
—.2592
-8.7016
.9994
6
f Virginis
4i
-4-33
—54
15 47.2
— 6 11 14
—0.1969
4951
—.2585
—8.9196
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7
m Virginis
6
—17
—90
8 51.5
H-10 24 17
— 1.0730
.5041
—.2520
—9.1418
.9958
8
X Virginis
^h
H- 2
—90
4 16.0
H- 5 14 45
—0.7233
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—.2378
—93421
.9892
11
A Ophiachi
5
H-12
—56
1125.9
H- 9 42 26
—0.2061
.5768
— i)919
—9.6477
.9522
11
43 Ophiachi
6
-h62
H-37
14 35.2
—11 15 32
H-1.2014
.5718
—.0836
—9.6716
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12
3 Sagittarii
B.A.C. 6127
5
-h35
—27
0 15.2
— 1 58 11
H-0.2941
.5810
—.0.549
-9.6683
.9469
12
5
-h56
— 5
8 19.1
-h 5 46 33
H-0.6689
.5817
—.0309
—9.6782
.9440
12
B.A.C. 6194
51
—30
—90
12 15.7
H- 9 33 46
—0.8578
.5907
—.0187
—9.6583
.9496
12
^Sagittarii
31
—29
—90
23 0.7
-478
—0.8356
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H-.0189
—9.6590
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13
r Sagittarii
3i
-4-25
—35
7 164
-h 8 48 42
+0.1540
.5867
H-X)400
—9.6697
.9465
13
B.A.C. 6628
6
H-62
H- 1
14 6.3
H-10 22 11
-+■0.7676
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H-.0614
—93785
3454
IS
B.A.C. 6666 6
H-21
—43
16 13.3
—1135 59
H-0.0160
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H-.0674
—9.6610
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14
0) Sagittarii 5^
-^35
—30
2 25.8
— 1 47 51
H-0.2403
.5816
H-.0971
—9.6523
.9511
14
6 Sagittarii 5
4-62
H-33
2 51.6
— 123 3
H-1.1738
^766
H-.0985
—9.6651
3477
14
A Sagittarii 5
B.A.C. 7077 6
-1-37
—29
3 40.5
— 0 86 4
H-0.2648
.5810
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—9.6506
.9515
14
-h65
— 4
17 15.9
—1182 33
H-0.7129
.6727
H-.1885
-9.6829
.9557
14
B.A.C. 7197,6
— I
—83
23 36.8
— 6 26 19
—0.5685
.5738
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—93966
3632
15
B.A.C. 7237 6
-4-66
H- 2
129.9
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H-0.8069
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H-.1698
—93147
3597
15
/ Capricor.
6
— 6
—90
7 58.7
H- 2 36 38
—0.7087
.6703
-h.l748
—93692
3679
15
27 Capricor.
6
—61
—90
8 23.8
H- 3 0 45
—1.2847
.5723
H-.1757
-9.5570
.9698
15
fp Capricor.
6
— 6
—90
10 56.5
H- 5 27 46
-0.7129
.5685
H-.1815
-93592
.9694
15
33 Capricor.
6
-4-44
—31
14 31J5
H- 854 50
H-0.2282
.5627
H-.1896
—93634
.9688
15
35 Capricor.
6
H-68
— 1
15 49.6
H-lOlO 3
H-0.7805
.5596
H-.1923
—93701
.9677
15
37 Capricor.
6
-h50
—27
19 4.6
-10 42 5
H-0.3062
.5595
H-.1991
—93488
3710
15
• Capricor.
41
H-27
—51
20 2.1
— 9 46 43
—0.1275
3607
H-.2007
—93364
.9727
15
* Capricor.
B.A.C. 7550
5
-1-22
—58
22 25.5
— 72834
—0.9390
.5596
H-.2056
—93839
3743
15
6
-4-65
—13
22 39.5
— 7 15 0
H-0.5784
.5568
H-J056
—93399
3722
16
29 Aqoarii
6
H-21
—60
7 2.2" H- 0 49 37
—0.2889
.5544
H-.2215
-94819
.9791
16
56 Aqoarii
6
H-49
—32
19 244 —11 14 10
H-0.2U5
.5458
H-J384
—94219
3843
17
74 Aqoarii
-f32
—52
5 565—1 3 40
—0.1449
.5415
H-.2549
—93313
.9698
17
V* Aqoarii
4^
H-42
—43
16 15.7|H- 8 54 49
H-0.0086
.5368
H-.2656
—9.2339
.9935
17
Z Aqoarii
54
—30
—90
16 44.6 H- 9 22 45
—1.2382
.5385
H-^61
—9.1701
.9952
17
y/' Aqoarii
4|
H-61
-25
17 13.5
H- 9 50 43
H-0.3662
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H-.2662
— 9J382
3934
17
y/* Aqoarii
H-80
H- 5
17 42.7
-hlO 18 53
+0J247
.6947
H-.2668
— 9.S565
3928
18
27Pisciom
5
H-40
—47
12 23.7
H- 423 8
-0X)649
3315
H-.2786
—83806
.9987
18
29 Pisciom
H
H-34
—54
13 52.9
H- 5 49 28
—0.1809
3318
H-.2794
-8.8247
9.9990
19
10 Ccti
6
H-50
—38
138.7
— 6 47 35
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3308
H-^817
—8.1704 0.0000
19
« Pisciom
H
H-38
—49
21 26.4
— U 38 22
-0.1156
3321
H-.2783
H-8.9304 9.9984
19
Z Pisciam 6
—42
—83
23 55J5
— 9 14 19
—1-3722
0.5315
H-.2773
H-9.0742 9.9969
OCCULTATIONS, 1855. 395
BLBMENT8 FOE FACILITATING THE CALCULATION OF OCCULTATIONS
OF PLANETS AND STARS BY THE MOON, FOR THE YEAR 1856.
1
Limiting
PknOlelt.
Wash-
ingtoo
Time of
6^
At WaahlngtoQ Moan Time of 6 •
Dau.
Sur'sNaiM.
II
1
North-
ern.
South-
era.
H
Y
y
?'
ix^^ein
^5r
Nor. 20
0 Piscinm
5
+9§
o
4-14
h. m.
14 43.3
h. m. •.
4- 6 4 34
4-1.0250
0.5887
4-.2661
4-9.1662
9.9953
20
54Ceti
6
-1-32
—53
17 14.7
4- 730 53
—0.2239
.5376
4-.2647
4-9.2536
.9929
21
40Arietii
6
—28
—72
19 14.8
4- 8 38 38
—1.2025
.6464
4-.2319
4-9.4825
.9790
21
TrAiieds
H
+29
—52
19 36.0
-h 8 58 32
—0.2838
.5491
4-.2314
4-9.4626
.9809
21
e'Arietis
6
-hl6
—65
22 27.8
4-11 44 19
—0.5293
.5496
4-.2271
4-9.4840
.9788
21
e'Arietif
6
-1-35
—45
22 43.5
4-11 69 27
—0.1629
.6509
4-iJ266
4-9.4768
.9795
22
53 Arietis
6
-h90
4-22
3 34.1
— 720 7
4-lX)235
.5572
4-.2178
4-9.4739
.9799
22
aArietis
41
4-19
—60
6 21.1
— 5 36 58
—0.4737
.5533
4-.2148
4-9.6166
.9752
22
T» Arietis
5
—19
—69
9 29.4
— 1 87 27
—1.0829
.5533
4-.2068
-h9.5468
.9713
22
T>ArietU
6
4-15
—62
10 9.9
— 0 58 27
—0.6331
.5558
4-.2066
4-9.5387
.9724
22
65 Arietis
6
-hl9
—58
10 52.9
— 0 16 65
—0.4547
.6660
4-.2041
4-9.5400
.9722
23
32 Taori
6
4-64
—13
0 38.9
—11 0 59
4-0.3359
.5656
4-.1741
4-9.5746
.9670
23
33Tauri
6
4-24
—50
0 43.1
—10 66 56
—0.3667
.5627
4-1741
4-9.5874
9648
23
A»Tauri
^*
4-90
4-52
3 56JS
— 7 50 37
4-1.2868
.5706
4-.1668
4-9.5676
.9681
23
jrTauri
^i
—44
—65
11 18.6
— 0 44 58
—1.2723
.5634
4-.1487
4-9.6305
.9563
24
itTauri
6
4-90
4-39
1 57.1
—10 39 37
4-1.1092
.5781
4-.1107
4-9.6231
.9679
25
136 Tauri
5
444
—18
0 18.9
4-10 50 59
4-0.0019
.5748
4-.0472
4-9.6655
.9477
25
49 AurigA
54
4-32
—25
17 25.1
4- 3 18 6
—0.2024
.5703
—.0021
4-9.6735
.9454
25
54 Aori^n
6
4-16
—42
19 12.3
4- 6 1 19
—0.4825
.6679
—.0074
4-9.6770
.9444
26
47 Geminor.
6
4-84
4-11
8 31.3
— 6 928
4-0.5640
.5673
—.0465
4-9.6583
.9496
26
53 Geminor.
6
4- 6
—57
10 25.3
— 4 19 42
-0.6560
.6603
-.0489
4-9.6736
.9454
26
« Geminor.
4
— 4
—62
14 35.3
— 0 18 64
—0.8156
.6671
—.0600
4-9.6728
.9456
26
6^ Geminor.
H
—52
—62
16 6.9
4- 1 9 27
-1.2674
.5536
—.0643
4-9.6774
.9443
26
6« Geminor.
^k
—23
—62
16 19.5
4- 1 21 34
-1.0634
.5547
—.0646
-1-9.6745
.9451
26
BJLC. 2472
6
—25
—62
16 41.3
4-142 33
—1.0877
.5544
—.0669
4-9.6745
.9451
26
V Geminor.
5
4-34
—29
18 58.8
4- 3 55 5
—0.1700
.6574
—.0709
4-9.6601
.9491
26
c Geminor.
6
-h90
4-17
22 33.2
-h 7 21 51
4-0.7336
.5591
—.0800
4-9.6438
.9532
27
(p Geminor.
5
4- 8
—62
2 37.5
4-11 17 28
—0.7057
.6498
—.0900
4-9.6590
.9494
27
iu»Cancri
6
4-73
0
5 56.1
— 9 30 56
4-0.4444
.5523
—.0977
4-9.6385
.9545
27
i^Cancri
4
4-35
—33
10 10.5
— 525 25
—0.1629
.5470
—.1079
4-9.6409
.9539
27
ilCancri
6
4-90
4-24
14 44.8
— 1 032
4-0.9168
.5480
-.1184
4-9.6172
.9591
27
w»Cancri
6
4-56
—16
19 45.2
4- 3 49 42
44).2011
M\0
—.1290
4-9.6186
.9588
28
SCancri
5
4-27
—46
13 37.3
— 2 53 24
—0.3011
.5255
—.1632
4-9.5851
.9652
28
79 Cancri
6
4-26
—48
14 6.1
— 2 25 32
—0.3309
.5250
—.1641
4-9.5844
.9654
28
BJLC. 3138
6
4-54
—22
15 42.3
— 0 52 19
4-0.1777
.6265
—.1660
4-9.5711
.9676
29
i; Leonis
H
4-40
—40
18 52X)
4- 1 27 43
—0.0711
.6066
—.2067
4-9.4773
.9795
30
42Leonis
6
4-58
—24
2 32.2
4-8 54 36
4-0.2548
.6021
—.2168
4-9.4323
.9835
30
B^.C.3579
6
4-51
—31
6 16.1
—11 27 54
4-0.1311
.4999
—.2197
4-9.4151
.9848
80
t Leonis
6
4-41
—40
8 5.1
— 9 42 3
—0.0445
.4986
—.2215
4-9.4094
.9852
Doc 2
B.A.C. 3996
6
4-21
-68
2 52.0
4- 7 54 42
-0.4435
ASU
—.2520
4-9.0188
.9976
2
ftVirginis
6
4-28
—60
9 0.8
-10 6 22
—0.3022
.4844
—.2592
-h8.8906
.9987
2
10 Vireinis
Y Vimnis
B.A.C.4277
6
4-56
—32
14 32.3
— 4 43 40
4-0.2192
.4848
—.2557
4-8.6745
9.9995
3
21
4- 5
—90
8 39.9
—11 5 10
—0.7437
.4874
—.2580
—8.0592
0.0000
3
6
— 2
—90
9 42.8
—10 4 1
—0.8796
.4876
—.2580
—8.1339
0.0000
3
38 Vii^nis
6
4-39
-48
15 5.0
— 4 50 28
—0.0873
.4891
—.2578
—8.6838
9.9995
3
IrVirginis
6
4- 6
—90
18 40.2
— 1 21 8
—0.7224
.4901
—.2576
—8.7234
.9994
4
i Virginis
41
4-28
—60
0 21.3
4- 4 10 42
—0.2869
.4921
-.2564
—8.9196
.993.5
4
m Virginis
6
—23
—90
17 31.1
- 3 816
—1.1500
.5018
—.2502
—9.1422
.9958
5
;i Virginis
BA.C.4896
41
— I
—90
12 57.6
— 8 15 48
—0.7793
.5158
-.2.1C2
—9.4423
.9892
6
6
4-56
—24
4 56.6
4-7 13 33
4-0.3689
0.5267
—.2189
—94706
9.080L>
396 OCCULTATIONS, 1855.
BLBMENT8 FOR FACILITATING THE CALCULATION OF OCCULTATIONS
OF PLANETS AND STARS BT THE MOON, FOR THE YEAR 1855
1
34
6
Limltinf
PuaUeb.
Wash.
ingtoa
Mean
Time of
6'
At WaahloftoD Meaa Time of ^ .
Date.
Sur'iName.
North-
em.
South-
ern.
H
F
P'
^
itoX>
.JiT,
Dec. 6
7
10
10
10
24 Libra
aScoipU
7 Sagittfurii
r Sagittarii
B.AX;. 6628
o
-h60
4- 7
—23
-h31
4-62
c
—18
—72
—90
—30
4- 7
h. m.
14 42.0
12 17.3
6 1.5
14 5.3
20 45.5
h. m. •.
— 7 19 54
—10 28 51
4- 4 41 20
—1134 48
- 5 11 9
4-0.4749
—0.4505
—0.7401
4-0^490
4-0.8642
OASSS
.5580
.6003
.5943
.5905
—.2064
—.1674
4- .0168
4-X)424
4-.0614
—93179
—93774
—9.6590
—9.6698
—9.6736
9.9750
.9666
.9494
.9464
.9453
10
11
11
11
11
B.A.C. 6666
itfSagittarii
6Sagittarii
ASMnttarii
B.A.C. 7077
6
5
5
6
4-26
4-42
4-62
4-44
4-65
-37
—24
4-53
—22
4- 4
22 494
8 47.8
9 13.1
10 0.9
23 19.3
— 3 12 19
4- 6 21 41
4- 6 45 56
4- 7 31 51
— 3 41 42
4-0.1227
4-0.3567
4-1^810
4-0-3827
4-0.8422
.5940
.6889
.5835
.5876
.5788
4-X)677
4-.0984
4-.1014
4-.1043
4-1411
—9.6612
-9.6523
—9.6651
—9.6508
—9.6329
.9488
.9511
.9477
.9515
.9557
12
12
12
12
12
B^.C. 7197
B.A.C. 7237
/ Capricor.
27 Capricor.
fp Capricor.
6
6
6
6
6
4- 7
4-66
4- 2
—33
4- 3
—70
4-11
—81
—90
—81
6 53.0
7 24.1
13 46.5
14 11.2
16 41.6
4- 2 17 21
4-4 4 7
4-10 11 52
4-10 35 35
—10 69 41
-0.4281
4-0.9452
—0.5538
—1.1240
—0.5540
.5811
.5785
.5757
.5769
.5735
-H.1569
-H.1619
-h.l764
4-.1787
-h.l8S2
—93966
—9.6148
—9.5693
-93570
—93592
.9632
.9597
.9679
.9698
J694
12
12
13
13
18
33 Capricor.
35 Capricor.
37 Capricor.
• Capricor.
X Capricor.
6
6
6
44
5
4-49
4-68
4-58
4-35
4-30
—26
4- 9
—19
—42
—48
20 13.6
21306
0 43.2
140.0
4 1.7
— 7 35 42
— 6 21 32
— 3 16 8
— 2 21 28
— 0 457
-H).S271
4-0.9346
4-0.4657
4-0.0353
—0.0739
.5669
J(639
.5636
.5645
.5620
-h.l922
4-.1943
4-2004
-h.2025
4-.2084
—9.5634
-93701
—9.5489
-93364
—93240
.9688
J677
.9709
.9727
.9743
13
13
13
U
14
BJ^.C. 7550
29 Aquarii
50 Aqaarii
56 Aquarii
74 Aquarii
6
6
6
6
6
4-69
4-30
—43
4-59
4-42
— 4
—50
—90
—23
—42
4 16.6
12 33.7
22 163
0 51.9
1123.3
4- 0 829
4- 8 830
— 6 29 28
— 8 59 18
4-6 10 34
4-0.7396
—0.1164
—1.3050
4-0.3902
4-0.0370
.5593
.5565
.5525
.5459
.5412
4-.20e4
4-.2229
4-.2386
4-.2428
-h.2549
—9.5399
—9.4819
—93915
—9.4221
—93313
.9722
.9790
.9864
.9843
.9898
14
14
14
14
15
V/» Aquarii
y Aquarii
1^ Aquarii
V/> Aquarii
27Piscium
44
5
5
4-52
—16
4-73
4-80
4-50
—34
—90
—16
4-17
—38
2144.6
22 13.6
22 42.7
23 12X)
18 4.4
— 7 48 59
— 720 53
— 6 52 48
-6 24 28
4-11 51 14
4-0.1907
—1.0590
4-0.5454
4-1.0990
4-0.1169
3856
.5867
.5344
.5278
.5273
4-.2643
-h.2653
4-.2653
4-.2632
-h.2763
—9.2342
—9.1703
—9.2384
-9^65
—8.8806
.9935
.9952
.9934
.9928
.9987
15
16
17
17
17
29 Pisdum
lOCeti
0 Pisdum
C Pisdum
0 Pisdum
54
6
54
6
5
4-43
4-60
4-47
—27
4-90
—44
—29
—41
—83
4-25
19 34.9
7 31.8
3 43.5
6 15.8
2125.0
—10 41 11
4-0 52 53
— 333 45
— I 619
—10 26 10
—0.0002
4-0.2908
4-0.0442
—1.2290
4-1.1770
.5272
.5255
.5255
.5256
.5314
4-.2766
4-.2784
4-.2739
4-.2730
4-.2622
—8.8247
—8.1705
4-8.9304
4-9.0742
4-9.1662
9.9990
0.0000
9.9984
.9969
.9953
18
19
19
19
19
54Ceti
40Arietis
;r Arietis
^Arietit
e'Arietit
6
6
54
4-39
—21
4-33
4-20
4-40
-46
—72
—47
—60
—40
0 0.1
2 39.6
3 \A
5 57.4
6 13.4
— 756 5
— 6 927
— 6 48 27
— 2 58 27
— 2 42 68
—0.0898
—1.1190
—0.1910
—0.4432
—0.0738
.5307
.5389
.5424
.5431
.5441
-I-.2595
4-.2279
4-.2263
4-.2215
4-.2215
4-9Jt536
-1-9.4825
4-9.4626
4-9.4840
-h9.4768
.9929
.9790
.9809
.9788
.9795
19
19
19
19
19
53Arietis
aArietis
T» Arietis
T* Arietis
65Arietii
41
4-90
4-22
—15
4-19
4-23
4-29
—56
-69
—59
—54
11 11.0
IS 0.5
17 14.7
17 56.1
18 40.1
4- 2 429
4-3 50 13
4- 7 65 31
4-8 35 28
4-9 17 58
4-1.1340
—0-3994
—1.0226
—0.4678
—0.3900
.5505
3469
3467
3493
3493
4-.2131
-h.2096
4-.2023
4-.2004
-h.2004
-h9.4739
4-93166
4-9.5469
4-93387
-h93401
.9799
.9752
.9712 .
.9724 1
.9722
SO
20
21
22
23
32 Tauri
33Tauri
it Tauri
136 Tauri
49 Auri^SB
6
5
4-67
4-26
4-90
4-41
4-28
—11
-47
4-40
—20
—29
8 43.7
8 48j0
10 27.4
9 3.1
2 14.2
— 1 823
— I 4 15
— 0 21 27
— 2 36 57
-10 4 50
4-0.3841
—0.3256
4-1.1148
—0.0410
-0.2774
3597
3568
3795
3731
03698
4-.1718
4-.1718
-I-.108I
4-iH43
—.0041
4-93747
4-93875
4-9.6231
4-9.6655
4-9.6736
.9670*
.9648
.9579
.9476
9.9454 J
OCCULTATIONS, 1865. 39T
ELEMENTS FOB FACILITATING THE CALCULATION OF OCCULTATIONS
Of PLANETS AND STARS BY THE MOON, FOB THE YEAB 1865.
1
LimiUnf
FUalUa.
Waah-
At Waahingtoa Maan Tlma of ^ .
Data.
Sur'tNama.
II
1
North-
am.
Sooth,
aro.
Tlmaof
6-
H
Y
P"
?'
U,^^a
U^co.
o
o
h. m.
h. m. •.
D.C23
54 Aiiriff8B
6
-hl2
—48
4 1.7
— 8 21 23
^-0.5615
0.6679
—.0098
+9.6771
9.9444
23
47 GemiDor.
6
4-74
-h 6
l7 2liJ
4-4 28 20
+0.4609
.5680
—.0457
+9.6584
.9495
S4
53 Oeminor.
6
— 1
—62
19 15.1
4- 6 17 59
—0.7628
.5610
—.0511
+9.6737
.9453
24
1 Geminor.
4
—12
—62
23 24.7
H-10 18 26
—0.9292
.5584
—mn
+9.6728
.9456
S4
6»G€mmor.
5^
—35
—62
1 8.7
+11 58 41
—1.1803
.5660
—.0669
+9.6746
.9451
84
B.A.C. 2472 6
—39
—62
130.4
—1140 22
—1.2059
J»560
—.0669
+9.6746
.9451
S4
V Geminor.
5
-h27
—36
3 47.6
— 9 28 13
—0.2910
.5595
— X)720
+9.6602
.9491
34
c Geminor.
6
-h88
-hio
7 21.4
— 627
+0.6064
.5610
—.0822
+9.6438
.9532
24
9 Geminor.
5
— 5
—63
11 24.7
-2 72r
—0.8397
.5520
—.0921
+9.6591
.9494
24
»>Cancri
6
-4-62
— 8
14 42.4
+ 1 816
-4-0.3041
.6654
— J0993
+9.6385
.9545
25
V^Cancri
4
-h26
—41
18 55.6
+ 5 735
-OJIlOl
.6487
—.1110
+9.6409
.9539
25
iCancri
6
4-90
-hU
23 28.6
+ 9 31 5
+0.7602
.5504
—.1200
+9.6173
.9591
25
v'Cancri
6
H-46
—25
4 27.3
— 040 20
-H).0367
MSB
—.1309
+9.6188
.9588
25
ICancri
5
-4-17
—57
22 12.6
+ 7 29 47
—0.4933
.5277
—.1659
+9.5851
.9652
25
79Cancri
6
4-15
—69
22 41.2
+ 7 67 27
—0.5211
.6281
—.1659
+9.5848
.9654
26
BJLC. 3138
6
-M3
—32
0 16.8
+ 930 1
— Oi)188
.6279
—.1693
+9.5712
.9675
27
i; Leonis
3^
4-27
—52
3 17.3
+1140 47
—0.3060
.5076
—.2087
+9.4773
.9795
27
42Leonis
6
444
-37
10 65.6
— 4 54 11
+0.0098
.6029
—.2179
+9.4323
.9835
27
B.A.C.3579
6
4-37
—44
14 38.9
— 1 17 21
—0.1181
.5013
—.2211
+9.4152
.9848
27
t Leonis
6
4-28
—54
16 27.6
+ 0 28 16
-0.2966
4996
—.2230
+9.4094
.9852
29
B.A.C. 3996
6
4- 6
—83
11 17.6
— 5 6163
-0.7269
.4834
—.2614
+9.0188
.9976
29
6 Virginia
6
4-14
—79
17 28.4
+ 094
—0.5859
.4831
—.2532
+8.8906
.9987
29
10 Virginia
6
4-40
—47
23 2.1
+ 6 33 56
—0.0622
.4829
—.2548
+8.6742
9.9995
30
SiTsr'
31
4-90
+32
4 53.0
+11 15 34
+1.2886
.4831
—.2558
+7.3691
0.0000
30
-h26
—63
16 19.2
— 136 20
—0.3423
.4667
—.2496
—8.2606
9.9999
30
y Vimnia
B.A.C.4277
H
—12
—90
17 20i2
— 0 37 1
—1.0261
.4844
-.2562
—8.0603
0.0000
30
6
—22
—90
18 23.7
+ 0 24 51
—1.1744
.4847
—.2562
—8.1280
0.0000
30
38 Virginia
6
4-24
—65
23 49.8
+ 5 42 10
-0.3757
.4854
—.2557
—8.6823
9.9995
31
1; Virginia
6
— n
—90
3 27.4
+ 9 14 2
—1.0116
.4870
-.2551
—8.7219
.9994
31
/ Virginia
4i
4-15
—78
9 12.7
— 9 10 3
—0.5565
0.4889
—.2537
—8.9198
9.9985
Non. — B. A. C, Britbh AaocktUm Catalofoe.
398 OCCULTATIONS, 1855.
0CCULTATI0N8 OF PLANETS AND STARS
BY THB MOON, VISIBLE |
AT WASHINGTON, D. C
., DURINa
THE YEAR 1865.
•
IMMERSION.
EMERSION.
1
g i
._, .,
Due.
Sur'iName.
WastiiBcum
Angle fiom |
WMhlogton
Anglelmm |
11
h. m.
1
Siderwl
Mean
North
Ter-
aderwl
Mean
North
Ter.
I
Uma.
Time.
Pbloi.
tez.
Time.
Time.
Point.
tez.
h. m.
h. m.
o
0
h.m
h. m
o
o
Jan. 1
139 Tauri
5^
2 42
7 58
224
164
3 20
8 35
167
109
0 37
6
B.A.C.3579
6
14 47
18 42
271
323
16 44
19 38
26
80
0 57
9
y Virginis
B.A.C. 1518
2i
13 36
18 18
245
263
14 55
19 37
38
73
1 19
27
6
8 32
12 4
296
364
9 40
13 12
73
131
1 8
S8
125Taiui
6
1 56
5 25
292
232
3 12
6 41
104
47
1 16
28
139 Tauri |
H
12 43
16 10
245
295
13 32
16 69
106
163
0 49
31
;i Cancri
6
2 58
6 15
247
191
4 2
7 19
107
49
1 4
Feb. 1
B.A.C.3138
6
4 53
8 7
326
269
5 22
8 36
11
814
0 29
2
^LeoniB
91
8 47
11 55
288
255
9 45
12 54
9
1
0 69
6
ib Virginia •
6
6 18
9 11
154
103
StarO'.l
BOathof
C»8
limb.
6
t Virginia
125Taari|
41
13 21
16 13
175
180
14 10
17 2
105
123
0 49
24
6
12 33
14 14
258
307
13 23
15 6
103
146
0 61
March 2
B.A.C.3579t
6
3 12
4 32
232
184
4 4
6 24
96
45
0 52
2
1 Leonia
6
4 52
6 12
243
190
5 58
7 17
79
25
1 6
4
6Virginia^
6
4 54
6 6
188
138
6 24
6 35
124
74
030
7
A Virginia •
<k
7 5
8 5
212
162
7 51
8 50
94
43
0 46
9
19 Scorpii
51
16 51
17 41
271
279
18 11
19 1
63
78
1 20
10
A Opbiachi
5
14 17
15 3
274
241
15 28
16 14
46
27
1 11
14
35 Capricor.*
6
14 46
15 17
288
237
15 41
16 11
94
43
0 54
29
42 Leonia
6
9 59
9 31
187
179
10 57
10 29
106
124
0 68
31
B.A.C.3996
6
7 26
6 51
224
174
8 35
8 0
75
30
1 9
April 18
Vkwus
10 24
9 38
214
264
ia48
9 2
165
214
0 24
24
B.A.C.3138
6
7 51
5 42
230
191
9 21
7 11
82
92
1 30
25
fi Leonia
3
12 47
10 33
327
17
Star0'.3
north of
C»s
limb.
29
/Virginia
14 55
12 25
267
296
16 0
13 29
20
69
1 6
Maj 3
25 Scorpii
6
20 33
17 46
353
35
StarO'.4
north of
C'«
limb.
4
3 Sagittarii
5
19 30
16 39
276
298
20 46
17 55
84
119
1 16
7
B.A.C.7237
6
17 48
14 46
316
282
18 54
15 62
73
60
1 6
9
T* Aqnarii
6
18 35
16 25
247
203
19 18
16 8
165
126
0 43
9
r^Aqnarii
4
19 43
16 33
297
260
20 63
17 42
124
99
1 9
19
47 Qeminor.
6
10 42
6 54
302
3
11 31
7 42
29
89
0 48
23
1 Leonia
6
10 48
6 44
248
259
12 12
8 8
38
78
1 24
25
6 Virginia
6
10 11
6 59
213
183
11 31
7 19
68
61
1 20
25
10 VirginUI
6
17 55
13 42
243
294
18 63
14 40
62
112
0 68
26
38 VirginU
6
17 43
13 26
288
338
18 26
14 9
14
66
0 43
28
a Virginia
41
11 6
6 41
286
248
11 48
7 24
1
330
0 43
30
19 Scorpii
H
19 58
15 25
338
19
20 12
15 38
I
43
0 14
Jnne 2
B.A.C.6628
6
15 43
10 59
197
159
16 7
U 22
168
123
0 24
3
B.A.C.7077
6
17 30
12 42
306
273
18 41
13 52
77
66
1 11
4
36 Capricor.*
6
14 56
10 6
307
257
16 46
10 64
76
24
0 60
95
B. A. C. 4896
6
16 18
10 3
164
185
16 40
10 24
135
160
0 22
28
3SagitUrii
5
14 58
8 31
240
209
16 9
9 42
90
71
1 11
29
r Sagittarii
31
21 54
16 23
317
350
22 49
16 17
69
110
0 65
30
A Sagittarii*
6
14 39
7 50
318
269
16 21
8 41
44
356
0 41
Jal/ 6
oPiacinm
5
0 9
17 9
27
367
0 26
17 27
62
27
0 17
28
B.A.C.7077t
6
15 4
6 40
262
203
16 1
7 36
120
76
0 66
29
B.A.C.7550
6
19 16
10 47
866
328
19 49
11 20
60
29
0 34
Aug. 4
53 Arietia
6
21 51
12 58
2
308
22 18
13 25
56
2
0 27
5
A> Tanri
41
23 53
14 66
239
182
0 28
15 31
176
119
0 36
6
IrTanri
6
23 24
14 23
279
223
0 25
15 24
213
166
1 1
OCCULTATIONS, 1855. 399
OCCULTATIONS OF PLANETS AND STARS BY THE MOON, VISIBLE
AT WASHINGTON, D. C
'., DURING THE YEAR 1855.
IMMEBSION.
EMERSION.
1 1
Due.
Sur'tName.
1
Washiagtoa
Angle from
Wwhington
Angle from
SIderwl
Mean
North
Ve^
SidereiJ
Mean
North
Yet-
Tima.
Hme.
Point.
tez.
Time.
Time.
Point.
tez.
h. m.
h. m.
o
o
h. m.
h. m.
0
0
h. m.
Aug. 9
e Geminor.
6
0 32
15 19
288
239
1 27
16 13
75
22
0 55
23
r Sagittarii
H
22 37
12 29
14
53
Star2'.2
north of
C'8
Umb.
25
33 Capricor.*
6
2 4
15 48
307
355
2 57
16 41
105
54
0 53
27
V^ Aqnarii
oPiscram*
4^
0 34
14 10
344
5
1 29
15 5
91
112
0 55
SO
5
17 35
7 1
323
281
18 17
7 43
87
39
0 42
Sept 6
ilCancri
6
1 26
14 23
177
127
1 1
Star3'.4 south ofl C '•
limb.
7
B.A.C.3188
6
2 42
15 35
324
272
3 10
16 2
17
324
0 27
22
B.A.C. 7550
6
20 38
8 32
27
14
Star0'.9 north of C 's
limb.
23
56 Aqnarii
6
19 19
7 10
207
169
StarO'.0 south of C *s
limb.
28
53Aneti8*
6
18 16
6 48
286
251
19 1
6 33
119
75
0 45
Oct 2
47 Geminor.
6
2 8
13 22
221
163
2 49
14 3
149
89
0 41
3
«» Cancrit
6
0 13
11 23
• 281
236
1 6
12 16
77
27
0 53
6
B.A.C.3579^
6
1 58
12 57
249
209
2 50
13 49
78
32
0 53
6
1 Leonis
6
8 38
14 36
311
262
4 8
15 6
13
321
0 30
19
35 Capricor.
6
0 41
10 48
247
285
1 15
11 23
173
215
0 35
21
V^ Aqoarii
41
0 44
10 44
356
18
1 31
11 31
80
112
0 47
26
32Tauri
6
5 5
14 44
258
297
6 12
15 51
141
194
1 7
28
136 Tauri
5
4 17
13 49
317
264
5 27
14 59
64
47
1 10
31
w^Cancri*
6
0 18
9 39
339
297
0 33
9 53
11
328
0 14
Nov. 2
42Leonifi
6
7 54
17 6
218
172
9 17
18 29
79
54
1 23
18
27PisciamJ
5
5 45
13 54
4
55
6 7
14 16
54
105
0 23
26
47 Geminor.t
6
23 12
6 50
287
243
0 2
7 40
80
31
0 50
28
B. AC. 3138
6
6 54
14 23
256
204
8 23
15 52
58
32
1 30
Dec 2
10 Virginis
6
5 13
12 27
244
194
6 12
13 26
64
12
0 59
3
38Virginis»
6
6 0
13 10
319
268
6 12
13 22
346
295
0 13
13
B. A. C. 7550
6
21 18
3 50
319
315
'22 33
6 5
103
116
1 15
16
lOCeti
6
1 30
7 50
343
3
2 32
8 52
96
129
1 2
20
32 Tauri
6
1 28
7 32
306
254
2 43
8 47
112
75
1 15
23
47 Geminor.
6
12 26
18 16
287
344
13 14
19 4
46
99
0 48
24
c Geminor. f
6
23 49
6 38
263
219
0 41
6 29
98
48
0 52
24
«> Cancri
6
8 49
14 36
251
289
10 11
15 58
68
125
1 22
27
42 Leonis
6
3 33
9 9
333
283
3 44
9 20
353
302
0 10
N
OTES
• Whole occultatk)
t Immersion below
X Emersion below 1
n below the h<
the horizon o
he horizon of
orizon of
fWashiE
Washing
Washi
igton.
ton.
ngton.
The Angles of Poni
lion, for the p
oints of (
contact
are given for ^
lirectvisi
on, an<
lare reck-
oned from the Moon's
North Point f
mdfrom
Its Vet
ter towards the
West 1
<'or inn
tried imager
add ISO^totheanglet
1 given.
400
PHENOMENA, 1855.
JUPITER'S SATELLITES.
WASHINGTON MEAN TIME.
JANUARY.
The Satellites are
not visible this month, Jupiter being too near the Sun.
11
FEBRUARY.
The Satellites are
not visible this month, Jupiter being too near the Sun.
MARCH.
d. h. ra. ■.
d. b. m. ■.
I. Shadow
Ingress
1 14 4
m. Shadow Ingress
6 10 38
I. Transit
Ingress
14 36
ni. Transit Ingress
13 9
I. Shadow
Egress
16 24
ni. Shadow Egress
14 20
I. Transit
Egress
16 56
in. Transit Egress>
16 51
I. Eclipse
Disapp.
3 11 17 50.8
I. Shadow Ingress
21 30
I. Occult.
Reapp.
14 9
I. Transit Ingress
22 8
n. Shadow
Ingress
14 10
I. Shadow Egress
23 50
II. Transit
Ingress
15 10
I. Transit Egress
7 0 8
II. Shadow
Egress
17 6
I. Eclipse Disapp.
18 43 17.4
n. Transit
Egress
18 15
I. Occult. Reapp.
21 40
III. Eclipse
Disapp.
20 31 12.4
n. Eclipse Disapp.
22 23 18.3
ni. Occult.
Reapp.
3 2 26
n. Occult. Reapp.
8 9 37
I. Shadow
Ingress
8 33
IV. Eclipse Disapp.
10 34 10.1
I. Transit
Ingress
9 7
IV. Eclipse Reapp.
15 15 33.9
I. Shadow
Egress
10 53
I. Shadow Ingress
15 58
I. Transit
Egress
11 27
I. Transit Ingress
16 38
I. Eclipse
Disapp.
4 5 46 10.4
IV. Occult. Disapp.
16 40
I. Occult.
Reapp.
8 39
I. Shadow Egress
18 19
n. Eclipse
Disapp.
0 4 15.5
I. Transit Egress
18 58
n. Occnlt.
Reapp.
13 11
IV. Occult. Reapp.
21 34
I. Shadow
Ingress
5 3 1
I. Eclipse Disapp.
9 13 11 44.0
I. Transit
Ingress
3 37
I. Occult. Reapp.
16 10
I. Shadow
Egress
5 91
n. Shadow Ingress
16 45
I. Transit
Egress
6 58
II. Transit Ingress
18 7
I. Eclipse
Disapp.
6 0 14 47.3
n. Shadow Egress
19 41
I. Occult.
Reapp.
3 10
n. Transit Egress
21 4
II. Shadow
Ingress
3 28
m. Eclipse Disapp.
10 0 30 53.3
n. Transit
Ingress
4 43
m. Occult. Reapp.
6 54
n. Shadow
Egress
6 24
1. Shadow Ingress
10 97
n. Transit
Egress
7 39
I. Transit Ingress
11 8
PHENOMENA, 1855.
401
r
JUPITER^S SATELLITES-
WASHINGTON MEAN TIME,
MARCH,
d. km*!.
eL h. rij. H.
I. Shadow
E^ew
ID 12 47
L Shadow Ingress
17 12 21
L Transit
EgrcBS
13 28
I. Transit Ingress
13 2
h B^cUpse
Disapp.
11 7 40 11.9
I. Shadow Egress
14 42
L Occult.
Roapp,
10 40
1. Transit Egress
16 20
IL Eelipte
Dieapp,
11 It 18.B
L Eclipse Disapp.
18 9 34 L5
11. Occult-
Reapp.
te 2
I. Occuit. Reapp.
12 40
L Shadow
Ingress
13 4 56
IL Eclipse Disapp.
14 la 12.0
■»-
I. Transit
Ingres
5 39
IL Oocull. Reapp.
18 52
1. Shadow
E^ess
7 16
I. Shadow Ingress
19 5 50
L Transit
Egress
7 59
L Transit Ingress
7 39
L EcliSJse
Disapp,
13 2 8 38.8
1. Shadow Egrem
0 10
L Occuh.
Reapp,
5 10
1. Transit Egress
10 0
n. Shadow
Ingres
6 2
I. Ellipse Disapp,
SO 4 2 27.5
n. TmnBit
In^TfM
7 33
L OficuU. Reapp.
7 10
IL Shadow
EgTM
8 58
II. Shadow Ingress
8 37
IL Tranait
Egresa
ID 28
IL Transit Itigrcsa
10 19
III. Shadow
Jngrejss
14 39
IL Shadow Egress
11 33
ITL Transit
17 37
II. Transit Egress
13 15
IIL Shadow
Egnes*
18 21
IIL Shadow Ingress
18 39
m. Transit
Egress
SI 20
IIL Transit Ingres
22 4
I, Shadow
Ingre»
23 24
m. Shadow Egress
22 21
I. TranBit
Ingress
14 0 9
L Shadow Ingress
21 1 19
I. Shadow
Egress
I 44
m. Transit Egress
1 46
1. Transit
Egresi
2 29
L Transit Ingress
2 2
L Eelipee
Dies pp.
20 37 8.4
L Shadow Egress
3 39
1. Oecult.
Reupp.
2d 40
1. Transit Egress
4 30
n. Eclipse
Dis&pp.
IS i 0 15,6
L Eclipse Disapp.
22 30 56.5
Ih OccuU.
Reapp.
5 27
I. Ocrult. Hespp,
22 1 40
L Shadow
Ingress
17 &3
n. Eclipse Disapp,
3 37 2.3
J. Transit
IngTi^es
IS 39
IT. Occult. Reapp,
8 17
I. Shadow
Egress
30 13
i. Sh*idow Ingress
19 47
I, Transit
Egress
20 69
L Transit Ingresa
20 40
, I. Eelipae
Disapp.
16 15 5 34 2
L Shadow Egress
21 8
1 L Occult.
Reapp.
IS 10
I. Transit Egress
23 0
U. Shadow
Ingress
19 20
I. Eclipse Disapp.
23 16 59 21.7
IT. Transit
Ingress
20 56
L OccaU. Reapp,
20 10
IV. Shadow
Ingress
21 5
n. Shadow Ingres*
21 54
IL Shadow
Egress
22 16
IL Transit Ingress
23 42
IL Transit
Egrem
23 52
11. Shadow Egress
24 0 50
IT. Shadow
Egress
17 1 68
IL Transit Egress
2 36
IV. Transit
In|rre»
4 27
m. E<slipse Disapp
8 29 48.t
IIL Eclipse
Disapp.
4 30 24.7
m. Eclipao Reapp*
12 3 O.I
IV. Transit
Egress
0 21
m. Occult. Disapp,
12 3
IIL Occult.
Reapp.
11 20
L Shadow IngT^»
U 16
fit
402
PHENOMENA, 1855.
JUPITER'S SATELLITES
•
WASHINGTON
[ MEAN TIBiE.
BIARCH.
d. h. OL ■.
d. h. m. ■.
I. TraoBit
Ingress
S4 15 10
I. Transit
Ingress
98 4 10
m. Occult.
Reapp.
15 45
I. Shadow
Egress
5 33
I. Shadow
Egress
16 36
m. Transit
Egress
6 U
I. Transit
Egress
17 30
I. Transit
Egress
6 30
IV. EclipM
Disapp.
25 4 43 5.0
I. Eclipse
Disapp.
99 0 94 49.4
IV. EclipM
Reapp.
9 S4 45.9
I. Occult.
Reapp.
3 40
I. EclipM
Disapp.
11 97 48.5
n. Eclipse
Disapp.
6 13 38.8
IV. Occult.
Disapp.
13 9
n. Occult.
Reapp.
11 5
I. Occult.
Reapp.
14 40
I. Shadow
Ingress
91 41
n. EclipM
Disapp. W. 16 64 55.3
I. Transit
Ingress
99 40
IV. Occult.
Reapp.
18 5
I. Shadow
Egress
30 0 9
n. Occult.
Reapp.
91 41
I. Transit
Egress
1 0
I. Shadow
Ingress
96 844
I. Edipse
Disapp.
18 53 7.1
I. Transit
Ingress
9 40
L Occult.
Reapp.
99 10
I. Shadow
Egress
11 5
n. Shadow
Ingress
31 0 98
I. Transit
Egress
19 0
II. Transit
Ingress
9 98
I. EcUpse
Disapp.
97 5 56 13.8
n. Shadow
Egress
3 94
I. Occult.
Reapp.
9 10
n. Transit
Egress
5 94
n. Shadow
Ingress
11 11
m. EcUpse
Disapp.
19 99 17.1
n. Transit
Ingress
13 5
m. Eclipse
Reapp.
16 9 35.1
II. Shadow
Egress
14 7
I. Shadow
Ingress
16 10
II. Transit
Egress
16 9
in. Occult.
Disapp.
16 96
m. Shadow
Ingress
99 39
I. Transit
Ingress
17 9
III. Shadow
Egress
98 9 99
I. Shadow
Egress
18 30
m. Transit
Ingress
9 98
I. Transit
Egress
19 30
I. Shadow
Ingress
3 13
m. Occult.
Reapp.
90 8
Phases of the Eclipses of the SaU
illites for an inverting Telescope.
I.
t
H
ffl.
d
•
w
IL
d
•
(^
IV.
d
•
•f^
LJ
klJ
PHENOMENA, 1855.
403
JUPITER^S SATELLITES.
WASHINGTON
MEAN TIME.
_
APRIL. 1
tL k tn. P.
d. a m. t^
I. Eclipee
DiBapp.
I IS 21 33.4
L Shadow
Egrew
7 20 34
L Occult.
lUapp. W.
16 40
IIL Occult.
Disapp.
SO 47
IT. Eclipee
Bisapp.
19 31 Sf8.5
I. Transit
Egress
21 29
n. Occult.
Reapp.
2 0 29
m. Occult.
Reapp.
8 0 30 i
L Shadow
Ingress
10 38
L Eelipse
Disapp.
15 15 16.5
1. Tranmt
Ingress
U 09
I. Ooeult.
Reapp.
18 38
1. Shadow
Egress
19 50
n. Eclipse
Disapp
33 7 51.4
I. Tranait
Egress
11 0
n. Ooeult.
Reapp.
9 3 15
rV. Shadow
logTcaa
15 13
L Shadow
Ingress
12 33
IV. Shadow
Egress
to 8
I. Transit
Ingress
13 38
IV. TtuBsit
3 0 45
L Shadow
Egress
14 53
IV. Transit
Egress
5 41
I. Transit
Egress
15 50
I. Eclipse
Difiapp.
7 49 67.fl
L Eclipse
Diaapp.
)0 9 43 40,4
L Occult.
Reapp.
U Q
I. 0C€U1L
Reapp.
13 8
IL Shadow
lngt«ss
13 4a
n. Shadow
In^eea W.
16 20
n, Trarait
Ingress
15 51
IL Tranait
Ingress
Id 35
n. Shadow
Egresa W.
16 42
IL Shadow
Egress
19 16
II. Traiisil
Egress
18 47
II. Transit
Egreaa
21 32
m. Shadow
Ingress
4 S 39
IV, F^jhpse
Disapp.
22 49 25.1
L Shadow
Ingreas
6 7
IV. Eclipse
Reapp.
It 3 32 5^.9
I. Transit
Ingress
6 9
III. Shadow
Ingress
6 39
HL Shadow
Egresa
6 23
I. Shadow
7 1
ni. Transit
Ingres
6 51
I. Transit
Ingress
8 S
I. Shadow
Egieas
7 37
IV. Occult.
Disapp.
» 15
L Transit
Egreas
6 30
I. Shadow
Egress
9 21
lU. Transit
Egress
10 34
III. Shadow
K^tem
10 31
I. Eelipae
DUapp.
5 2 le 26.3
I. Transit
Egreaa
10 29
I. Occult.
Keapp.
5 39
m. Transit
Ingreii
a 11
n. Eclipse
Disapp.
8 5Q 6.1
IV. OcL-ult.
Reapp.
14 10
n. Occult.
Rcapp.
13 52
IIL TranHii
Egress
14 54
I. Shadow
In gtefia
23 36
L Eclipse
Disapp.
13 4 13 8.5
I. Transit
Ingress
6 a 39
I. Octolt,
Heapp.
7 3H
I. Shadow
Egress
! 56
IL Eclifise
Disapp,
11 26 20.5
I. Tranait
Egress
2 59
I!. Occult.
Reapp. W,
16 38
L Eciipse
Disapp.
m 46 50.4
L Shadow
Ingress
13 1 30
I. Oocull,
Reapp.
7 0 8
L Transit
Ingres
3 33
II. Shadow
Ingress
3 3
I. Shadow
Egress
3 50
IL Transit
Ingress
5 13
I. Transit
Egress
4 58
U. Shadow
Egress
5 59
L Eclipse
Disapp.
S3 40 32 3
IL Transit
Egress
8 10
I. Occult.
Heapp.
14 3 7
IlL Eclipse
Disapp.
16 29 19.3
IL Shadow
Ingres
5 37
I. Shadow
Ingress
IB 4
n. Transit
Ingress
7 57
L Transit
Ingress
19 9
n. Shadow
Egress
8 34
m. Eclipse
Reapp.
20 3 4d 1
II Transit
Egress
10 54
404
PHENOBI£NA, 1855.
r
JUPITER'S SATELLITES.
WASHINGTON
BIEAN TIMJR.
APRIL. 1
d. h. OL ■.
d. h. OL ■.
I. Shadow
Ingress
14 10 66
n. Shadow
Ingress
81 8 18
m. EclifMe
Disapp.
SO 89 4.0
n. Transit
Ingress
10 40
I. Transit
Ingress
31 7
n. Shadow
Egress
11 8
I. Shadow
Egress
93 18
n. Transit
Egress
13 37
I. Transit
Egress
33 36
I. Shadow
Ingress
31 68
m. EclipM
Reapp.
15 0 3 80.6
I. Transit
Ingress
33 6
m. Oooult.
Disapp.
1 6
I. Shadow
Egress
88 0 18
m. Oooalt.
Reapp.
4 49
m. Eclipse
Disapp.
0 39 14.3
I. Eclipse
Disapp.
17 6 68.3
I. Transit
Egr^
1 86
I. Oooolt.
Reapp.
80 37
III. Eclipse
Respp.
4 8 43.7
n. Eclipse
Disapp.
16 0 44 3.3
m. Oooalt.
Disapp.
6 33
n. Oooolt.
Reapp.
6 1
m. Occult.
Reapp.
9 6
I. Shadow
Ingress
14 37
I. Eclipse
Disapp.
19 3 39.6
I. Transit
Ingress
16 37
I. Occult.
Reapp.
83 34
I. Shadow
Egress
16 47
n. Eclipse
Disapp.
83 3 30 4.7
I. Transit
Egress
17 67
n. Occult.
Reapp.
8 46
I. Eclipse
Disapp.
17 11 37 83.0
I. Shadow
Ingress W
16 30
I. Occult.
Reapp.
16 6
I. Tranait
Ingress
17 36
n. Shadow
Ingress
18 66
I. Shadow
Egre.
18 41
n. Transit
Ingress
31 19
I. Transit
Egw»
19 66
n. Shadow
Egress
81 61
I. EcUpse
DiMpp
84 13 31 8.7
n. Transit
Egress
* 18 0 16
I. Occult.
Reapp.
17 4
I. Shadow
Ingress
866
n. Shadow
IngreM
81 89
I. Tranait
Ingress
10 6
n. Transit
IngreM
86 0 1
m. Shadow
Ingress
10 38
n. Shadow
Egress
0 86
I. Shadow
Egress
11 16
n. Transit
Egress
8 67
I. Transit
Egress
18 37
I. Shsdow
Ingress
10 49
m. Shadow
Egress
14 31
I. Transit
Ingress
19 4
in. Transit
Ingress
16 38
I. Shadow
Egress
13 9
m. Transit
Egress
19 11
I. Transit
Egress
14 34
I. EcUpse
Disapp.
19 6 6 60.1
m. Shadow
Ingress
14 38
IV. Shadow
Ingress
9 33
m. Shadow
Egress
18 81
I. Occult.
Reapp.
9 36
m. Transit
Ingress
19 43
n. Eclipse
Disapp.
14 3 86.1
ni. Transit
Egress
83 86
IV. Shadow
Egress
14 18
I. Eclipse
Disapp.
86 7 69 30.9
n. Oooalt.
Reapp.
19 83
I. Occult.
Reapp.
11 33
IV. Transit
Ingress
80 38
n. Eclipse
Disapp.
16 38 18.8
IV. Transit
Egress
80 1 33
n. Occult.
Reapp.
33 6
I. Shadow
Ingress
3 84
I. Shadow
Ingress
87 6 17
I. Transit
Ingress
4 36
I. Transit
Ingress
6 33
I. Shadow
Egress
6 44
I. Shadow
Egress
7 38
I. Transit
Egress
6 67
I. Transit
Egress
8 64
I. Eclipse
Diiapp.
31 0 34 13.6
IV. Eclipse
Disapp.
16 66 48.8
I. Occult.
Reapp.
4 6
IV. EcUpse
Reapp.
31 40 67.4
1
PHENOJHENA, 1855.
405
JUPITEK^S SATELLITES
WASHINGTON MEAN TIME.
APRIL.
ft li. rr. »
d- h. tTL ■.
L EcUpa«
Disapp. 28 2 37 64,5
in. Eclipse
Diaapp.
S9 4 2fl 47.0
IV, Oc^^uU.
Disapp* 4 50
III. Eclipee
Heapp.
8 2 18.S
I. Occult.
Reapp. 6 2
m. Occult.
Dis&pp.
y 36
IV. Occult.
Reapp, g 45
m. Occult.
Heapp,
13 18
U. Shadow
Itigrew 10 47
I. Eclipse
Disapp
2Q m 20.a
IL Tranait
IngTCtt 13 SI
L Oceult,
Reapp,
30 Q 31
XL Shuiow
Egress 13 44
IL Eclipse
Disapp.
5 55 55.5
n. Trwidt
E^e« W, m 18
n. OcouH.
Reapp.
11 SO
L Shadow
Ingrem 23 45
L Shadow
Ingresi
IS 14
L Transit
In^rcas 29 1 6
L Transit
Ingress
19 33
L Shadow
Egress 2 6
L Shadow
Egress
SO 35
T, Transit
Egress 3 33
L Transit
Egteaa
21 52
Phases of the Eclipses of the Satellites for an inverting Telescope*
L
. r^
IIL
:M
I \
• W
n.
= w
tv. i
T
•
w
M^
lY,
d. h. m. 1.
d. h. m. t.
I. EoUpee
Diiapp,W, I 15 94 43.6
m. Transit
Ingress
2 23 55
L Occult.
Reapp. 10 0
m. Transit
F^ess
3 3 37
n. Shadow
lugress S 0 5
f. Eclipse
Dtaapp.
9 53 13.0
n. Tnmii
Ugrem 2 42
L Occult.
Heapp.
13 30
n. Shadow
E^r«ss 3 1
II. Eclipse
Disapp.
10 14 2.5
n. Transit
Egress 5 38
n. Occult.
Heapp.
4 0 40
t. Sh^ow
Ingress 12 43
I. Shadow
Ingress
7 U
T. Transit
Tngress 14 1
I. Transit
Ingress
e 30
L Shadow
Kgteab W, 15 3
1. Shadow
Egress
2 m
I, Tmmit
Egress W. 16 21
L Transit
Egrew
10 50
m. Shadow
Ingreaa 18 3S
L Eclipse
Disapp.
5 4 21 35.6
III. Shadow
regress 9^ gl
I. Occult.
Reapp.
7 58
i
406
PHENOMENA, 1855.
JUPITER'S SATELLITES.
WASHINGTON
MEAN TIME.
MAY.
d. h. OL ■.
d. h. m. ■.
n. Shadow
Ingress
6 13 23
I. Shadow
Egress
11 11 26
II. Transit
Ingress W.
16 1
I. Transit
Egress
12 46
IT. Shadow
Egress W.
16 18
I. Eclipse
Disapp.
12 6 16 17.8
n. Transit
Egress
18 68
I. Occult.
Reapp.
9 64
I. Shadow
Ingress
6 1 40
n. Shadow
Ingress W.
16 67
I. Transit
Ingress
2 59
n. Transit
Ingress
18 40
lY. Shadow
Ingress
3 31
n. Shadow
Egress
18 63
I. Shadow
Egress
4 0
n. Transit
Egress
21 36
I. Transit
Egress
5 10
I. Shadow
Ingress
13 3 33
IV. Shadow
Egress
8 27
I. Transit
Ingress
4 66
m. Eclipse
Disapp.
8 28 12.8
I. Shadow
Egress
6 64
m. Eclipse
Reapp.
12 1 44.8
I. Transit
Egress
7 16
m^ Occult.
Disapp.
13 46
in. Eclipse
Disapp.
12 27 36.8
rv. Transit
Ingress W.
16 66
m. Eclipse
Reapp. W.
16 1 7.6
m. Occult.
Reapp.
17 28
ni. Occult.
Disapp.
17 62
IV. Transit
Egress
20 48
m. Occult.
Reapp.
21 34
I. Eclipse
Disapp.
22 60 2.2
I. Eclipse
Disapp.
14 0 43 44.6
I. Occult.
Reapp.
7 228
I. Occult.
Reapp.
4 23
n. Eclipse
Disapp.
8 31 36.9
IV. Eclipse
Disapp.
11 6 6.1
n. Occult.
Reapp.
14 6
n. Eclipse
Disapp.
11 7 6.2
I. Shadow
Ingress
20 8
IV. Eclipse
Reapp. W.
16 49 27.1
I. Transit
Ingress
21 28
n. Occult.
Reapp.
16 46
I. Shadow
Egress
22 28
I. Shadow
Ingress
22 2
I. Transit
Egress
23 48
I. Transit
Ingress
23 23
I. EcUpee
Disapp.
8 17 18 26.3
IV. Occult.
Disapp.
23 48
I. Occult.
Reapp.
20 66
I. Shadow
Egress
16 0 22
n. Shadow
Ingress
9 2 40
I. Transit
Egress
1 44
n. Transit
Ingress
6 21
rv. Occult.
Reapp.
4 40
n. Shadow
Egress
6 36
I. Eclipse
Disapp.
19 12 7.6
n. Transit
Egress
8 17
I. Occult.
Reapp.
82 62
I. Shadow
Ingress W.
14 37
n. Shadow
Ingress
16 6 16
I. Transit
. Ingress W.
16 67
n. Transit
Ingress
7 69
I. Shadow
Egress
16 67
II. Shadow
Egress
8 11
I. Transit
Egress
18 17
n. Transit
Egress
10 66
m. Shadow
Ingress
22 38
L Shadow
Ingress
16 30
m. Shadow
Egress
10 2 21
I. Transit
Ingress
17 69
ni. Transit
Ingress
4 4
I. Shadow
Egress
18 61
m. Transit
Egress
7 46
I. Transit
Egiess
20 12
I. Eclipse
Disapp.
11 46 64.1
m. Shadow
Ingress
17 2 38
I. Occult.
Reapp. W.
16 26
m. Shadow
Egress
6 21
n. Eclipse
Disapp.
21 49 36.6
in. Transit
Ingress
8 9
n. Occult.
Reapp.
11 3 26
in. Transit
Egress
U 61
I. Shadow
Ingress
9 6
1. Eclipse
Disapp.
13 40 36.8
I. Transit
Ingress
10 26
I. Oocuh.
Reapp.
17 90
PHENOMENA, 1855.
407
JUPITER'S
SATELLITES.
1
WASHINGTON
MEAN TIME.
MAY. II
d h, tiL
«.
A
h HI *.
n. Eclipse
Disapp* J8 0 S4
58.9
m. Tmnsit
In$?ress 34
12 ID
n. Occult.
Reapp. 6 3
L Eclipse
Disapp. \V.
15 3i 33,0
L Shadow
IngT^BB 10 69
nL Transit
Egress W.
15 H
1, Tmnsit
lOirTese 13 31
I. Oceuk.
Reap p.
10 II
L Shadow
Egress 13 19
n. Eclipaa
Disapp. 35
3 0 13 J
I. Transit
Egress W. U 41
n. Occult.
Reapp.
a 38
T. Eclipse
Disapp. 19 8 0
0.9
L Shadow
Ingress
13 53
T. ticcult.
Reapp. 11 49
L TtTinait
Ingress W.
14 15
IL Shadow
InjETTees lU 33
L Shadow
Egress W.
15 13
IL Trawait
Injfresa 31 16
L Transit
Egress
16 35
IL Sh^ow
Ej^e«s 31 2S
L Eclipse
Disapp. ^
10 3 46.6
n. Transit
Kgr^fis 20 a 13
L Otcuh,
Rtapp. W.
13 43
L Shadow
In^T^B 6 37
n. Shadow
IngttiHfl
31 8
i L TranaJl
Tngretn 6 49
IL Ttan«it
Ingress
23 53
L Shadow
EgrciiB 7 4S
n. Shadow
Egress 37
0 4
I, Transit
Egress 9 10
IL Transit
Egress
3 4d
m. Eclipse
Diaapp. 16 37
8.4
L Shadow
IngTCflB
7 31
TIL Edipse
Reapp, 20 0
38.8
1. Transit
Ingteas
8 43
IlL tfecult.
Disapp. 91 55
L Shadow
Egress
9 41
IIL Octult,
Beapp. 31 1 36
L Transit
Egress
n 3
L Eclipse
Diaapp. 3 37
38.6
m. Pkrlipse
Disapp.
so 37 J 8.7
t Occult.
Reapp. « n
UI. Eclipse
Reapp. 38
0 0 46.7
IL Eclipse
Disapp. W. 13 43
36.9
m. 0<^c^lt.
Disapp.
1 65
n. Occult-
Reapp. 10 31
L EcUpse
Disapp.
4 3t 15.3
I, Shallow
Ingress 3S 56
m. Occult.
Reapp.
5 35
L Transit
Ingress m 1 18
L Occult.
Reapp,
8 11
L Shadow
Egress 2 16
a Eclipfle
Disapp.
16 17 38.7
L Tfunait
Egress 3 3B
n. OcculL
Reapp.
31 55
L Eclipao
Diaapp. 31 5
59.1
L Shadow
Ingress 39
1 50
IV. Shadow
Ingress 21 40
L Transit
Ingress
3 11
L Oceult.
Reapp. 33 0 46
L Shadow
Egress
4 10
TV. Shadow
Egress 3 06
L Transit
Egre^
5 31
IL Shadow
Ingress 7 50
L :&>lJpBe
Disapp.
33 59 39 J
IV, Transit
Ingress 10 30
I. Occulr.
Reapp. 30
3 30
n. Transit
Ingress 10 35
n. Shadow
Ingress
10 30
n. Shadow
Egress 10 46
n. Transit
Ingress W.
13 9
n, Trwisit
Egress W, 13 31
IL Shadow
Egress W.
13 22
IV- Transit
Egress W, 15 19
IL Transit
Egress
16 5
1. Shadow
Ingress IS 34
L Shadow
Ingress
30 18
L Trausit
Ingress 19 46
L Transit
Ingress
21 39
L Shadow
F^resB m 44
I. Shadow
Egress
32 38
L Tnmait
EgresE 33 0
L Transit
Egress 31
0 0
m. Shadow
Ingrt^sB 34 6 $8
IV, Eclipse
Disapp.
5 13 9.0
in. Shadow
Egr«83 10 30
IV. Eclipee
Reapp.
9 57 30.6
408
PHENOMENA, 1855.
JUPITER'S
> SATELLITES.
•
WASHINGTON
MEAN TIME.
MAY.
d. h. m.
■.
^ d.
h. m. ■.
m. Shadow
Ingress 31 10 37
IV. Occult.
Disapp. 31
17 56
m. Shadow
Egress W. 14 80
m. Transit
Egress
19 47
m. Transit
Ingress 16 7
I. Occult.
Reapp.
81 7
I. Eclipse
Disapp. 17 S6
9.9
IV. Occult.
Re^ip.
88 44
Phases of the Eclipses of the Satellites for an inverting Telescope.
I.
■■M
ra.
i : (
H
n.
■■ W
IV. i
: (
H
JUI
^E.
d. h. m.
■.
d.
k. m. ■.
n. Eclipse
Disapp. 1 6 35
18.7
I. Occult.
Reapp. 4
10 4
IL Occult.
Reapp. 11 11
n. Eclipss
Disapp.
18 58 48.3
I. Shadow
Ingress W. 14 46
n. Occult.
Reapp. 5
0 87
I. Transit
Ingress 16 8
I. Shadow
Ingress
3 43
I. Shadow
Egress 17 7
I. Transit
Ingress
5 3
I. Transit
Egress 18 98
I. Shadow
Egress
6 3
I. Eclipse
Disapp. 9 11 56
35.1
I. Transit
Egress
7 83
I. Occalt.
Reapp. W. 15 35
I. Eclipss
Disapp. 6
0 53 88.9
n. Shadow
Ingress 93 43
I. Occult.
Reapp.
4 31
n. Transit
Ingress 3 9 95
n. Shadow
Ingress W.
13 1
n. Shadow
Egress 9 40
n. Transit
Ingress W.
15 41
n. Transit
Egress 5 91
n. Shadow
Egress W.
15 58
I. Shadow
Ingress 9 15
n. Transit
Egress
18 37
I. Transit
Ingress 10 36
I. Shadow
Egress
89 19
I. Shadow
Egress 11 35
I. Transit
Ingress
83 38
I. Transit
Egress W. 19 56
I. Shadow
Egress 7
0 38
m. Eclipse
Disapp. 4 0 97
13.9
I. Transit
Egress
1 58
m. Eclipse
Reapp. 4 0
37.8
m. Shadow
Ingress W.
14 37
m. Occult.
Disapp. 5 50
m. Shadow
Egress
18 19
I. Eclipss
Disapp. 6 85
4.3
1. Eclipss
Disapp.
10 99 0.3
m. Occult.
Re^»p. 9 30
m. Transit
Ingress
19 59
PHENOMENA, 1855.
409
JUPITER'S SATELLITES. 1
--
WASHINGTON
MEAN TIME.
JUNE,
d. h. m a.
il
h iji. 1.
L f>ccult.
Reapp.
7 fl3 59
in. Shadow
Ingresa 14
Ig 311
ni. Transit
EgTCEiB
23 39
1. Eclipse
Di&app*
21 15 54.9
11. Kclipae
Disapp,
8 8 10 16.9
m: Shadow
Egress
23 IS
II. Oocult.
Reapp. W.
13 43
IIL Transit
Ingress
23 IB
IV. 8badpw
Itig:iesa W.
15 50
h Occult.
Reapp. 15
0 5€
T. Shadow
Ingress
le 40
IIL Transit
E^reaft
3 27
L Transil
I ij press
17 59
IL Eclipse
Disapp.
10 45 Bp2
L Shadow
E^resa
19 0
n. Occult,
Rc3pp.
16 11
I. Transit
Eg^resa
20 20
I. Shadow
Ingress
18 34
IV. Shadow
Egie^
20 46
L Transit
Ingress
19 50
IV, Tmnsit
Ing^reas
9 4 12
L Shadow
Egre^
20 54
IV. Tranmt
Kgrem
S 57
I, Transit
F'gtesfl
22 10
L Ed ipse
Disapp. W,
13 50 26.5
I. Eelipse
Disapp. W, 16
15 44 22;i
1. Occult,
Reapp^
n 27
L Occult.
Reapp.
19 18
II Shadow
Inj^eaa
10 2 19
IV. Eclipse
Disapp.
23 31 36.0
11. Transit
Jti^reaa
4 56
IV, Eclij>se
Reapp. 17
4 5 16,4,
11. Shadow
Egrt'Ss
6 16
II. Shadow
Ingress
4 55
11. Transit
E£fri?ss
7 53
IL Transit
Itigtesfl
7 26
1. Shadow
lo|yrreaa
U 9
II. Shadow
Egress
7 52
L Transit
Ingress W.
12 27
IL Transit
Egresa
10 23
1. Shadnw
Egress W,
13 29
IV. Occult.
Disapp.
11 9
L Transit
E^reas VV,
n 47
I. Shadow
Ingress VV.
13 2
IIL P:clipse
Disapp*
11 4 27 35.9
L Tratisit
Ingress W,
14 17
III Eclipse
Reapp.
8 0 55,0
I. Shadow
Egress W.
15 23
L Eclipse
Disapp,
8 18 57.1
IV. OecuU.
Reapp. W.
15 54
nh Ocnit.
Disapp.
Q 41
1. Transit
Egress
16 38
I. Occult.
Reapp.
U 55
in. Ellipse
Disapp. 18
8 27 36.0
in. OiTQit.
Reapp. W.
13 21
L Eclipse
Di&app.
10 12 53.8
IL Eclipse
Disupp.
21 27 38.5
m. Eclipse
Reapp. W,
12 0 40.S
IL Occult.
Rcapp.
12 2 57
IIL Od^ult,
Disapp. W.
13 27
1. Shadow
Ingress
5 37
L OcculL
Reapp. W.
13 46
L Transit
Ingress
6 55
m, OceuU.
Reapp,
17 7
L Shadow
Egress
7 67
IL Ellipse
Disapp. 19
0 2 28.6
I. Transit
Egress
9 15
IL Cfocult.
Reapp.
5 24
I. Eclipae
Dieapp,
13 2 47 22.5
L Shadow
Ingress
7 31
L Oecult.
Reapp.
6 23 1
I. Transit
Ingress
8 45
n. Shadow
Ingresa W,
15 37
L Shadow
Egress
9 51
IT. Transit
Ingress
18 12
I. Transit
Egtcss
11 5
n. Shadow
Egress
18 34
I. Eclipse
Disapp. 90
4 41 30.3,
H. Transit
Egreaa
21 B
L Occult,
Reapp.
8 13
I. Shadow
Ingrc&s
U 0 5
II. Shallow
Ingress
18 13
L Tranftit
Ingreaa
1 20
11, Transit
Ingress
20 40
L Shadow
Egress
2 25
n. Shadow
Egress
21 10
I. Tratisit
Egress
3 43
n. Transit
Egress
83 36
1
52
4:10
PHENOMENA, 1855.
JUPITER'S SATELLITES.
WASfflNGTON
MEAN TIME.
JUNE.
d.
h. m. ■.
d. h m. ■.
I. Shadow
Ingress SI
1 59
m. Occult.
Reapp.
95 90 47
L Transit
Ingress
3 19
IV. Transit
Ingress
90 57
I. Shadow
Egress
4 19
IV. Transit
Egress
96 1 41
1. Transit
Egress
5 39
n. Eclipse
Disapp.
9 37 13.7
ni. Shadow
Ingress
99 37
n. Occult.
Reapp.
7 49
I. Eclipse
Disapp.
93 9 53.9
I. Shadow
Ingress
9 94
m. Shadow
Egress 93
9 19
I. Transit
Ingress
10 34
I. Occult.
Reapp.
9 40
I. Shadow
Egress W.
11 45
III. Transit
Ingress
3 39
I. Transit
Egress W.
19 54
m. Transit
Egress
7 10
I. Eclipse
Disapp.
97 6 35 99.0
n. Eclipse
Disapp. W.
13 19 54.9
I. Occult.
Reapp.
10 9
II. Occult.
Reapp.
18 37
n. Shadow
Ingress
90 50
I. Shadow
Ingress
90 97
n. Transit
Ingress
93 6
I. Transit
Ingress
91 40
II. Shadow
Egress
93 46
I. Shadow
Egress
99 48
n. Transit
Egress
98 9 9
I. Transit
Egress 93
0 0
I. Shadow
Ingress
3 53
I. Eclipse
Disapp.
17 38 99.1
I. Transit
Ingress
5 1
I. Occult.
Reapp.
91 8
I. Shadow
Egress
6 13
II. Shadow
Ingress 84
7 31
I. Transit
Egress
7 91
II. Transit
Ingress
9 53
I. Eclipse
Disapp.
99 1 3 58.0
n. Shadow
Egress
10 98
ni. Shadow
Ingress
9 37
II. Transit
Egress W.
19 49
I. Occult.
Reapp.
4 99
I. Shadow
Ingress W.
14 56
in. Shadow
F^gress
6 19
I. Transit
Ingress
16 07
m. Transit
Ingress
7 11
I. Shadow
Egress
17 16
m. Transit
Egress
10 49
I. Transit
Egress
18 97
n. Eclipse
Disapp.
15 54 36.3
IV. Shadow
Ingress 25
10 0
II. Occult.
Reapp.
91 1
I. Eclipse
Disapp. W.
19 6 55.3
I. Shadow
Ingress
99 91
III. Eclipse
Disapp. W.
19 97 13.8
I. Transit
Ingress
93 98
IV. Shadow
Egress W.
14 55
I. Shadow
Egress
30 0 41
I. Occult.
Reapp. W.
15 35
I. Transit
Egress
1 48
m. Eclipse
Reapp.
16 0 91 0
I. Eclipse
Disapp.
19 39 97.5
III. Occult.
Disapp.
17 8
I. Occult.
Reapp.
99 56
=J
PHENOMENA, 1855.
411
JUPITER'S
> SATELLITES.
WASHINGTON
MEAN TIME.
JUNE.
Phases of the Eclipses of the Satellites for an invertiEig Telescope.
I.
■■M
m.
i :{
M
II.
'■ M
IV. t
'■ {
1
JUl
aY.
A h. m.
a.
d.
h. m. 8.
11. Shadow
Ingress 1 10 8
n. Shadow
Ingress 4
93 96
, II. Transit
Ingress W. 19 18
n. Transit
Ingress 5
1 30
II. Shadow
Egress W. 13 4
n. Shadow
Egress
9 93
II. Transit
Egress W. 15 14
n. Transit
Egress
4 96
I. Shadow
Ingress 16 50
I. Shadow
Ingress
5 47
I. Transit
Ingress 17 55
I. Transit
Ingress
6 49
I. Shadow
Egress 19 10
I. Shadow
Egress
8 7
I. Transit
Egress 30 15
I. Transit
Egress
9 9
I. Eclipse
Disapp.W. 9 14 1
9.9
I. Eclipse
Disapp. 6
9 58 7.8
III. Eclipse
Disapp. 16 97
6.1
I. Occult.
Reapp.
6 17
I. Occult.
Reapp. 17 93
in. Shadow
Ingress
6 37
m. Eclipse
Reapp. 90 0
4.1
ni. Shadow
Egress
10 19
m. Occult.
Disapp. 90 44
m. Transit
Ingress W.
10 45
m. Occult.
Reapp. 3 0 93
m. Transit
Egress W.
14 93
n. Eclipse
Disapp. 5 11
54.8
n. Eclipse
Disapp.
18 99 15.1
IL Occult.
Reapp. 10 19
n. Occult.
Reapp.
93 99
I. Shadow
Ingress W. 11 18
I. Shadow
Ingress 7
0 15
I. Transit
Ingress W. 19 99
I. Transit
Ingress
1 15
I. Shadow
Egress W. 13 38
I. Shadow
Egress
9 35
I. Transit
Egress W. 14 49
I. Transit
Egress
3 35
IV. Eclipse
Disapp. 17 31
19.9
I. Eclipse
Disapp.
91 96 39.0
IV. Eclipse
Reapp. 99 14
6.6
I. Occult.
Reapp. 8
0 44
IV. Occult.
Disapp. 4 3 96
n. Shadow
Ingress W.
19 44
IV. Occult.
Reapp. 8 8
II. Transit
Ingress W.
14 41
I. Eclipse
Disapp. 8 99
31.0
II. Shadow
Egress W.
15 41
I. Occult.
Reapp. W. 11 50
II. Transit
Elgress
17 37
412
PHENOMENA, 1855.
JUPITER'S SATELLITES.
WASHINGTON
MEAN TIME.
JULY.
d.
h m. 0.
d.
h. m. ■.
I. Shadow
Ingnress 8
18 44
n. Shadow
Ingress W. 15
15 91
I. Transit
Ingress
19 49
n. Transit
Ingress
17 9
I. Shadow
Egress
91 4
II. Shadow
Egress
18 17
I. Transit
Egress
99 9
IL Transit
Egress
19 58
I. Eclipse
Disapp. 0
15 55 15.4
I. Shadow
Ingress
90 37
I. Occult.
Reapp.
19 11
I. Transit
Ingress
91 98
m. Eclipse
Disapp.
90 97 11.4
I. Shadow
Egress
99 57
m. Eclipse
Reapp. 10
0 0 1.0
I. Transit
Egress
93 48
III. Occult.
Disapp.
0 16
I. Eclipse
Disapp. 16
17 49 35.1
m. Occult.
Reapp.
3 55
I. Occult.
Reapp.
90 57
n. Eclipse
Disapp.
7 46 33.5
m. Eclipse
Disapp. 17
0 98 0.9
II. Occult.
Reapp. W.
19 39
m. Occult.
Reapp.
7 93
I. Shadow
Ingress W.
13 13
n. Eclipse
Disapp. W.
10 91 10.7
I. Transit
Ingress W.
14 9
n. Occult.
Reapp. W.
14 51
I. Shadow
Egress W.
15 33
L Shadow
Ingress W.
15 6
I. Transit
Egress
16 99
I. Transit
Ingress W.
15 55
I. Eclipse
Disapp. W. n
10 93 45.7
I. Shadow
Egress
17 96
I. Occult.
Reapp. W.
13 37
I. Transit
Egress
18 15
n. Shadow
Ingress 19
9 3
I. Eclipse
Disapp. W. 18
19 18 7.1
II. Transit
Ingress
3 59
I. Occult.
Reapp. W.
15 94
IV. Shadow
Ingress
4 10
n. Shadow
Ingress 19
4 40
n. Shadow
Egress
4 59
n. Transit
Ingress
6 19
n. Transit
Egress
6 48
n. Shadow
Egress
7 36
I. Shadow
Ingress
7 41
n. Transit
Egress
9 8
I. Transit
Ingress
835
I. Shadow
Ingress
9 34
IV. Shadow
Egress
9 4
I. Transit
Ingress W.
10 91
I. Shadow*
Egress
10 1
I. Shadow
Egress W.
11 54
I. Transit
Egress W.
10 55
I. Transit
Egress W.
19 41
rV. Transit
Ingress W.
19 45
I. Eclipse
Disapp. 90
6 46 47.9
IV. Transit
Egress
17 97
I. Occult.
Reapp. W.
9 50
I. Eclipse
Disapp. 13
4 59 94.1
IV. Eclipse
Disapp. W.
11 41 16.3
I. Occult.
Reapp.
8 4
m. Shadow
Ingress W.
14 37
in. Shadow
Ingress W.
10 37
IV. Eclipse
Reapp.
16 99 48.5
m. Transit
Ingress W.
14 14
m. Transit
Ingress
17 40
III. Shadow
Egress W.
14 19
m. Shadow
Egress
18 19
m. Transit
Egress
17 53
rV. Occult.
Disapp.
18 43
n. Eclipse
Disapp.
91 3 51.9
m. Transit
Egress
91 18
n. Occult.
Reapp. 14
1 49
rV. Occult.
Reapp.
93 94
I. Shadow
Ingress
9 9
n. Eclipse
Disapp.
93 38 90.9
I. Transit
Ingress
S 9
n. Occult.
Reapp. 91
3 59
I. Shadow
Egress
4 99
I. Shadow
Ingress
4 3
I. Transit
Egress
6 99
I. Transit
Ingress
4 47
I. Eclipse
Disapp.
93 90 57.1
I. Shadow
Egress
693
I. Occult.
Reapp. 15
9 31
I. Transit
Egress
7 7
1
PHENOMENA, 1855. 413
JUPITER^S
SATELLITES.
WASHINGTON
MEAN TIME.
JULY. 1
(i
h ni.
t.
d h. m- i.
L Eclipa^i
Disnpp. £HS
1 15
32,0
m. Tranait
Ingreas
27 21 2
L Occult.
Reapp,
4 16
111. Shadow
Egress
22 19
11. Shadow
Ingreaa
17 58
nL Transit
Egresa
28 0 40
IL Tranak
Ingress
19 22
n. Eclipse
Disapp,
2 IS 7*9
11. Shadow
Egress
20 65
L Shadow
Itigresa
5 67
n. Transit
Egt-esa
22 13
n, Oc<^aU,
Reapp.
6 15
L Skadow
In^i*ess
22 31
1. Transit
Ingreaa
6 32
L Transit
Ingreaa
23 14
I. Shadow
Egr{»a
8 17
L Shadnw
EgTeaa 23
0 51
1. Traasil
Egress
Q 52
L Tmnsit
Egrt^^
1 U
IV. Shadow
Ingress
22 22
L Echpse
Dieapp.
19 44
£.1
1. Eclipsfi
Disapp*
2& a ^ 54.4
1. Occult,
Reapp,
S2 in
IV. Simdow
Egress
3 15
in. EcUpee
Disapp. 24
4 28
37.9
IV. Trunsii
Ingress
3 43
111. Oc'cyh.
R«app. W.
10 47
L Occult.
Reapp,
6 I
11. Eclipfw
Disapp. W.
12 55
4S.0
IV. Transit
Egress
8 22
I. Shadow
Infi^eaa
17 0
11. Shadow
Ingress
20 35
IL Clccuit.
Re4ipp.
17 7
n. Transit
IngTCaa
21 40
1. Transit
Ingresa
17 40
II. Shadow
Egress
23 32
I. Shadow
Egress
le 20
I. Shadow
InRTtJ^
30 0 25
I. Transit
Egreas
20 0
IL Transit
Egress
0 3fi
L EcUp8«
Disapp. W. 35
14 12
35.9
L Transit
Ingress
0 68 ,
L Oocuit.
Reapp.
17 9
L Shadow
Egrew
2 45
n. Shadctw
lngrefi« 26
7 17
I. Transit
Egrejw
3 18
11. Transit
Iiig^resft
d 32
L Eclipse
Disapp
2t 38 36*6
TT. Shadow
Em^ \V.
10 14
L Oecolt.
Reapp.
31 0 28
11. Transit
Egress W.
11 28
m. Eclipse
Disapp*
8 20 46.1
L Shadow
Ingres W.
11 28
111. Occult.
Reapp* W.
14 8
I. Transit
Ingress W.
12 0
IL Eclipse
Disapp* W*
16 30 S9.5
L Shadow
Egress W.
13 48
L Shadow
Itigresfl
18 54
I. Transit
Egress W.
H 2G
n. Occult.
Reapp,
10 23
L EclipM
Di«tpp. 27
8 41
17.8
I. Transit
Ingress
19 24
1. Occult,
Reapp. W.
11 35
L Shadow
Egress
21 14
m. Shadow
Ingre«3
18 37
L Transit
Egreaa
21 44
•■
414
PHENOMENA, 1855.
-^
JUPITER'S SATELLITES.
WASHINGTON
BiEAN TIME.
JULY.
Phases of the Eclipses of the Satellites for an inverting Telescope.
I.
* ^
^
in.
i (
H
II.
^
IV.
d r
• •
^-^
AUG
UST.
d. h. m. «.
d.
h. m. «.
I. Eclipse
Disapp. W.
1 16 7 13.9
n. Shadow
Egress 6
2 9
I. Occult.
Reapp.
18 54
I. Shadow
Ingress
2 19
n. Shadow
Ingress W.
3 9 54
I. Transit
Ingress
2 42
II. Transit
Ingress W.
10 49
n. Transit
Egress
253
11. Shadow
Egress W.
12 51
I. Shadow
Egress
4 39
I. Shadow
Ingress W.
13 22
I. Transit
Egress
5 2
II. Transit
Egress W.
13 45
IV. Eclipse
Disapp.
5 52 8.9
I. Transit
Ingress W.
13 50
IV. Occult.
Reapp. W.
13 57
I. Shadow
Egress W.
15 42
I. Eclipse
Disapp.
23 33 18.9
I. Transit
Egiess W.
16 10
I. Occult.
Reapp. 7
2 12
I. EclipM)
Disapp. W.
3 10 35 56.2
m. Eclipse
Disapp. W.
12 30 26.3
I. Occult.
Reapp. W.
13 20
in. Occult.
Reapp.
17 27
III. Shadow
Ingress
22 37
n. Eclipse
Disapp.
18 6 10.8
m. Transit
Ingress
4 0 21
I. Shadow
Ingress
20 48
m. Shadow
Egress
2 19
I. Transit
Ingress
21 8
m. Transit
Egress
3 59
n. Occult.
Reapp.
21 37
n. Eclipse
Disapp.
4 47 48.8
I. Shadow
Egress
23 8
I. Shadow
Ingress
7 51
I. Transit
Egress
23 28
I. Transit
Ingress
8 16
I. Eclipse
Disapp. 8
18 1 56.4
IL Occult.
Reapp.
8 30
I. Occult.
Reapp.
20 38
I. Shadow
Egress W.
10 11
n. Shadow
Ingress W. 9
12 32
I. Transit
Egress W.
10 36
n. Transit
Ingress W.
13 5
I. Eclipse
Disapp.
5 5 4 34.6
I. Shadow
Ingress W.
15 16
I. Occult.
Reapp.
7 46
II. Shadow
Egress W.
15 29
n. Shadow
Ingress
23 13
I. Transit
Ingress W.
15 33
n. Transit
Ingress
23 57
II. Transit
Egress W.
16 1
PHENOMENA, 1855.
415
JUPITER'S SATELLITES.
WASHINGTON
MEAN TIME,
AUGUST.
d.
h, m. n.
il.
h. m. «H
L Shadow
F^n^iB 9
17 36
IL Shadow
Egress 16
18 6
L Transit
Egress
17 53
IL Transit
Egress
18 18
L Eclipae
Disapp.W. 10
13 30 42,5
L Shadow
Egress
19 31
I. Oecuk.
Koapp, W.
15 4
L Transit
Egress
19 37
m. Shadow
Inj^resa 11
2 38
L Eclipse
Disapp. W, 17
14 25 37,1
III. Transit
Ingress
3 39
L Occult.
Reapp,
16 48
TIT. Shadow
Egress
G 20
IIL Shadow
Ingress 18
6 3S
HL Transit
Egress
7 17
IIL Tnusit
Ingress
6 54
IL Eclipse
Disapp.
7 23 32.7
D. Eclipse
Disapp, W,
9 57 22.2
L Shadow
Ingress W.
9 45
III. Shadow
Egr^ W.
10 20
L Transit
Ingres* W.
9 69
HL Transit
Egress W.
10 33
IL Occult.
Reapp. W.
10 44
L Shadow
Ingress W.
11 39
I. Shadow
Egress W.
19 5
I. Transit
Ingress W,
U 42
I. Traoftit
Egress W.
12 ig
IL Oceult.
Reapp. W.
13 57
L Eclipse
Disapp. 13
6 59 23,0
L Shaduw
Egre^ W.
13 59
I. Occnlt.
Reapp, W.
9 30
L Transit
Egrress W,
14 2
11. Shadow
Ingress 13
1 50
I. Eclipse
Disapp- W, 19
B 54 19,7
IT. Transit
Ingress
2 14
L OcculL
Reapp. W.
U 14
L Shadow
Ingress
4 14
n. Shadow
Ingress 20
4 28
I. Transit
Ingress
4 25
n. Transit
Ingress
4 30
IL Shadow
Egress
4 47
I. Shadow
Iniffess
6 B
IL Traosit
Egtetti
5 9
L Tmnavt
Ingress
6 8
l. Shadow
Egress
0 34
IL Shadow
Egress
7 25
I. Transit
Egress
G 45
11. Transit
Egress
7 26
L Eclipse
Diaapp. 14
1 23 9.5
I. Shadow
Egress W.
8 38
I. Oi^caU.
Reapp,
3 56
I. Transit
Egress W,
8 3d
m. Eclipse
Disapp.
16 31 7.6
I. Occult.
Disapp. 21
3 30
IV. Shadow
Ingress
16 35
L Eclipse
Reapp.
5 38 58.9
IV. Transit
Ingrtiss
IB 4
: ra. Oceuli.
Disapp.
30 20
n. Eclipse
Disapp.
20 39 57.4
11. Occult.
Disapp «
23 8
IIL Ot^ult.
Reapp.
20 44
III. Eclipse
Reapp. 22
0 3 28.0
IV, Shadow
Egress
SL 2G
L Transit
Ingress
0 34
L Shadow
Ingress
23 42
I. Shadow
Ingress
0 36
IV. Transit
Egrcas
22 45
IL Eclipse
Reapp.
2 4 39,4
L Transit
Ingress
22 51
L Transit
Egress
2 54
11 . Occult.
Reapp.
23 50
I, Shadow
Egress
3 56
I. Shadow
Egress 15
1 3
L Occnlt.
Disapp.
21 46
L Transit
Egress
1 U
IV. Occult.
Disapp,
23 26
L Eelipa«
Disapp.
19 56 49.1
L Eclipse
Reapp, 23
0 7 40,1
L Occult,
Reapp.
22 22
TV, Ellipse
Reapp.
4 43 39,3
IL ShadDW
Ingress W, 16
15 9
II. Transit
Ingress
17 38
IL Transit
Tngresa W,
15 22
IL Shadow
Ingress
17 48
L Shadow
Ingress
17 H
L Transit
IiigreBS
19 0
L Transit
=7
Ingress
17 17
L Shadow
Ingress
19 5
416
PHENOMENA, 1855.
JUPITER'S SATELLITES.
WASHINGTON MEAN TIME.
AUGUST.
li h. m. ■.
d.
h. m. a.
n. Transit
Egress 33 30 34
I. Occult.
Disapp. 38
5 4
II. Shadow
Egress 30 44
I. Eclipse
Reapp. W.
7 34 3.6
I. Transit
Egress 31 30
m. Occult.
Disapp.
83 36 1
I. Shadow
Egress 31 35
II. Occult.
Disapp. 89
1 30
I. Occalt.
Disapp. W. 34 16 13
I. Transit
Ingress
3 18
I. Eclipse
Reapp. 18 36 39.4
I. Shadow
Ingress
3 31
III. Transit
Ingress W. 35 10 10
m. Eclipse
Reapp.
4 4 17.9
m. Shadow
Ingress W. 10 39
I. Transit
Egress
4 38
II. Occult.
Disapp. W. 13 14
II. Eclipse
Reapp.
4 39 34.6
I. Transit
Ingress W. 13 36
I. Shadow
Egress
4 51
I. Shadow
Ingress W. 13 34
I. Occult.
Disapp
83 36
m. Transit
Egress W. 13 49
I. Eclipse
Reapp. 30
3 8 46.5
III. Shadow
Egress W. 14 31
II. Transit
Ingress
19 53
n. Eclipse
Reapp. W. 15 33 6.6
II. Shadow
Ingress
80 86
I. Transit
Egress W. 15 46
I. Transit
Ingress
80 44
I. Shadow
Egress W. 15 54
I. Shadow
Ingress
81 0
I. Occult.
Disapp. W. 36 10 38
IL Transit
Egress
88 49
I. Eclipse
Reapp. W. 13 5 13.5
I. Transit
Egress
83 3
n. Transit
Ingress 87 6 45
I. Shadow
Egrees
83 80
n. Shadow
Ingress W. 7 7
II. Shadow
Egress
33 31
I. Transit
Ingress W. 7 53
IV. Transit
Ingress W. 31
8 16
I. Shadow
Ingress W. 8 3
IV. Shadow
Ingress W.
10 48
II. Transit
Egress W. 9 41
IV. Transit
Egress W.
13 0
II. Shadow
Egress W. 10 3
IV. Shadow
Egress W.
15 38
I. Transit
Egress W. 10 13
I. Occult.
Disapp.
17 66
I. Shadow
Egress W. 10 33
I. Eclipse
Reapp.
80 31 37.7,
Phases of the Eclipaes of the Satellites for an invertmg Telescope.
I.
«
III.
t
^
II.
■■M
IV.
^
— Ar
PHENOMENA, 1855.
417
1 JUPITER'S SATELLITES. 1
WA^SmNGTON
MEAN TIME.
SEPTEMBER,
A. h. m. m.
d.
ti m. t,
III, Transit
Ingress W,
] 13 m
m. Transit
Ingres 8
16 44
n. Occall.
Disapp. W.
14 m
L Transit
Ingraft
16 54
IIL Shawlaw
In^rtsa W,
14 40
1. Shadow
Ingress
17 23
I. Transit
IrifTresa W,
15 )Q
111. Shadow
Ingress
18 41
L Shadow
Ingfeaa W.
15 28
I. Transit
Egress
19 14
m. Trariait
Ejjress
17 5
L Shadow
Egress
19 43
I. Transit
Efirress
17 sa
m. Transit
Egress
20 23
L Shadow
Ep-esB
17 48
n. Eclipse
Reapp.
20 32 11.6
n. Eclipse
Rcapp.
17 67 4.6
OL Transit
Egress
23 21
in. Shaa^vs^
Eg-reas
18 21
IV. Eclipse
Rejjpp.
22 53 9.3
1. Occult.
Difiapp. W.
2 12 23
I. Occult.
Disapp. W. 9
14 3
h Echpio
Eeapp. W.
15 0 23,7
L Eclipud
Heapp.
IS 55 40.9
IL Tratiaii
logreBs W.
3 9 I
IL Transit
Ingress W. 10
11 18
I, Transit
In^resfl W.
9 m
L Truijstt
Ingress W.
a 26
11. Shudow
Ingress W.
9 44
L Shadow
Ingres W.
11 51
r. Shadow
Ingress W.
9 57
n. Shadow
Ingress W
12 33
I. Transit
Egrcaa W.
U 55
J. Transit
Egress W.
13 40
n. Tmnsit
Egress W.
11 67
L Shadow
Egress W.
14 U
I. Shadow
Egress W.
13 17
H, Transit
Egress W.
U 14
U. Shadow
Egress W.
12 40
n. Shadow
Egress
15 19
I. Oct'ult.
Disapp. W.
4 6 49
L Occult.
Disapp. W.
fi 34
1. Eclipse
Reapp. W.
fl 39 15.7
L Eclipao
Reapp. W,
11 24 34,7
IIL Ck'^ult,
Disapp.
5 2 54
L Transit
Ingrcaa 12
5 46
11. Occult.
Disapp.
3 33
11. Occult.
Disapp.
5 47
I. TraRsit
Ingress
4 9
in. Occult.
Disapp.
6 14
1. Shadow
Ing-resB
4 25
1. Shadow
Ingress
0 20
I. Transit
Egress
6 21
I. Transit
Egreiis W.
8 6
L Shadow
Egress W.
6 45
L Shadow
E^ess W.
8 40
n. Eclipse
Rcapp. W,
7 14 36.9
IL F>clipse
Reapp. W.
9 49 48.2
IIL Eclipw
Rcapp. W,
8 5 52.3
m. Ellipse
Reapp. W.
12 7 1L7
L Occult.
Ditapp.
n I lb
L Occult-
Disapp, 13
3 0
L Eclipse
Reapp,
3 5S 0.4
I. Ecliijse
Reapp.
5 53 20.9
IL Transit
lugreas
32 10
L Transit
Ingress 14
0 12
h Transit
Ingress
22 m
n. Transit
Ingress
0 28
I. Shadow
Ingress
22 54
I. Shadow
Ingress
0 49
IL Shadow
Ingress
33 4
IL Shadow
Ingress
1 42 I
L Tr.itiail
Egress
7 0 48
L Transit
F^ess
2 32
11. Tmtisit
Egress
1 6
1. Shadow
Egress
3 9
L Shadow
Egrea*
1 14
IL Transit
Egress
3 24
11. Shadow
Egress
2 0
i n. Shadow
Egress
4 38
1. Occult,
Disapp.
19 41
1. Occult.
Disapp,
21 27
L Eclipse
Reapp.
S2 20 53.3
L Eclipse
Reapp* 13
0 23 15,4
IV. Occult.
Disapp.W.
8 13 39
L Transit
Ingress
18 39
JI- Occult.
Disapp.
16 40
n. Occult.
Disapp.
18 55
1|
53
416
PHENOMENA, 1855.
JUPITER'S SATELLITES.
WASHINGTON MEAN TIME.
AUGUST.
li h. m. ■.
d.
h. m. ■.
IT. Transit
Egress 23 30 34
I. Occult.
Disapp. 28
5 4
II. Shadow
Egress 20 44
I. Eclipse
Reapp. W.
7 34 3.6'
I. Transit
Egress 21 20
m. Occult.
Disapp.
23 36 1
I. Shadow
Egress 21 25
II. Occult.
Disapp. 29
120
I. Oocalt.
Disapp. W. 24 16 12
I. Transit
Ingress
2 18
I. Eclipse
Reapp. 18 36 29.4
I. Shadow
Ingress
2 31
m. Transit
Ingress W. 25 10 10
m. Eclipse
Reapp.
4 4 17.9
ra. Shadow
Ingress W. 10 39
I. Transit
Egress
4 38
n. Occult.
Disapp. W. 12 14
U. Eclipse
Reapp.
4 39 34.6
I. Transit
Ingress W. 13 26
I. Shadow
Egress
4 51
I. Shadow
Ingress W. 13 34
I. Occult.
Disapp
23 36
m. Transit
Egress W. 13 49
I. Eclipse
Reapp. 30
2 2 46.5
III. Shadow
Egress W. 14 21
II. Transit
Ingress
19 53
n. Eclipse
Reapp. W. 15 22 5.6
II. Shadow
Ingress
20 26
I. Transit
Egiess W. 15 46
I. Transit
Ingress
20 44
I. Shadow
Egress W. 15 54
I. Shadow
Ingress
21 0
I. Occult.
Disapp. W. 26 10 38
IL Transit
Egress
22 49
I. Eclipse
Reapp, W. 13 5 13.5
I. Transit
Egress
23 3
n. Transit
Ingress 27 6 45
I. Shadow
Egress
23 20
n. Shadow
Ingress W. 7 7
n. Shadow
Egress
23 21
I. Transit
Ingress W. 7 52
IV. Transit
Ingress W. 31
8 16
I. Shadow
Ingress W. 8 2
IV. Shadow
Ingrev W.
10 48
II. Transit
Egress W. 9 41
IV. Transit
Egress W.
13 0
II. Shadow
Egress W. 10 2
IV. Shadow
Egress W.
15 38
I. Transit
Egress W. 10 12
I. Occult.
Disapp.
17 56
I. Shadow
Egress W. 10 22
I. Eclipse
Reapp.
90 31 37.7
Phases of the Eclipses of the Satellites for an inverting Telescope.
I.
n.
«
«
in.
IV.
t
^
4
^
PHENOMENA, 1855.
417
JUPITER'S SATELLITES. 1
WASHINGTON
MEAN TIME.
SEPTEMBER.
d. h. in. 1.
d.
h. m. t.
m. Transit
Ingress W.
1 13 26
m. Transit
Ingress 8
10 44
n. Occult.
Disapp. W.
14 36
I. Transit
Ingress
16 54
m. Shadow
Ingress W.
14 40
I. Shadow
Ingress
17 23
I. Transit
Ingress W.
15 10
III. Shadow
Ingress
18 41
I. Shaaow
Ingress W.
15 28
I. Transit
Egress
19 14
m. Transit
Egress
17 5
I. Shadow
Egress
19 43
I. Transit
Egress
17 22
m. Transit
Egress
20 23
I. Shadow
figress
17 48
n. Eclipse
Reapp.
20 32 11.6
II. Eclipse
Reapp.
17 57 4.6
m. Transit
Egress
22 21
III. Shadow
Egress
18 21
IV. Eclipse
Reapp.
22 53 8.2
I. Occult.
Disapp. W.
2 12 23
I. Occult.
Disapp. W. 9
14 8
I. Eclipse
Reapp. W.
15 0 23.7
I. Eclipse
Reapp.
16 55 40.9
n. Transit
Ingress W.
3 0 1
n. Transit
Ingress W. 10
11 18
I. Transit
Ingress W.
9 36
I. Transit
Ingress W.
11 20
II. Shadow
Ingress W.
0 44
I. Shadow
Ingress W.
11 51
I. Shadow
Ingress W.
9 57
n. Shadow
Ingress W
12 22
I. Transit
Egress W.
11 55
I. Transit
Egress W.
13 40
II. Transit
Egress W.
11 57
I. Shadow
Egress W.
14 11
I. Shadow
Egress W.
12 17
n. Transit
Egress W.
14 14
II. Shadow
Egress W.
12 40
n. Shadow
Egress
15 19
I. Occult.
Disapp. W.
4 6 49
I. Occult.
Disapp. W.
8 34
I. Eclipse
Reapp. W.
9 29 15.7
I. Eclipse
Reapp. W.
11 24 34.7
III. Occult.
Disapp.
5 2 54
I. Transit
Ingress 12
5 46
II. Occult.
Disapp.
3 33
n. Occult.
Disapp.
6 47
I. Transit
Ingress
4 2
in. Occult.
Disapp.
6 14
I. Shadow
Ingress
4 25
I. Shadow
Ingress
6 20
I. Transit
Egress
6 21
I. Transit
Egress W.
8 6
I. Shadow
Egress W.
6 45
I. Shadow
Egress W.
8 40
n. Eclipse
Reapp. W.
7 14 36.9
n. Eclipse
Reapp. W.
9 49 48.2
III. Eclipse
Reapp. W.
8 5 52.3
m. Eclipse
Reapp. W.
12 7 11.7
I. Occult.
Disapp.
6 1 15
I. Occult.
Disapp. 13
3 0
I. Eclipse
Reapp.
3 58 0.4
I. Eclipse
Reapp.
6 53 20.9
n. Transit
Ingress
22 10
I. Transit
Ingress 14
0 12
I. Transit
Ingress
22 28
n. Transit
Ingress
0 28
I. Shadow
Ingress
22 54
I. Shadow
Ingress
0 49
n. Shadow
Ingress
23 4
n. Shadow
Ingress
1 42
I. Transit
Egress
7 0 48
I. Transit
Egress
2 32
n. Transit
Egress
1 6
I. Shadow
Egress
3 9
I. Shadow
Egress
1 14
n. Transit
Egress
3 24
n. Shadow
Egress
2 0
n. Shadow
Egress
4 38
I. Occult.
Disapp.
19 41
I. Occult.
Disapp.
21 27
I. Eclipse
Reapp.
22 20 53.2
I. Eclipse
Reapp. 16
0 22 15.4
rv. Occult.
Disapp. W.
8 13 39
I. Transit
Ingress
18 39
n. Occult.
Disapp.
16 40
n. Occult.
Disapp.
18 65
53
416
PHENOMENA, 1855.
JUPITER'S SATELLITES.
WASHINGTON MEAN TIME.
AUGUST.
li h. m. ■.
d.
h. m. a.
n. Transit Egress 23 30 34
I. Occult.
Disapp. 28
5 4
II. Shadow Egress 20 44
I. Eclipse
Reapp. W.
7 34 3.6
I. Transit Egress 21 20
m. Occult.
Disapp.
23 36 !
I. Shadow Egress 21 25
II. Occult.
Disapp. 29
1 20 1
I. Occult. Disapp. W. 24 16 12
I. Transit
Ingress
2 18 1
I. Eclipse Reapp. 18 36 29.4
I. Shadow
Ingress
2 31 1
III. Transit Ingress W. 25 10 10
m. Eclipse
Reapp.
4 4 17.9
m. Shadow Ingress W. 10 39
I. Transit
Egress
4 38
n. Occult. Disapp. W. 12 14
U. Eclipse
Reapp.
4 39 34.6
I. Transit Ingress W. 13 26
I. Shadow
Egress
4 51
I. Shadow Ingress W. 13 34
I. Occult.
Disapp
93 36
ni. Transit Egress W. 13 49
I. Eclipse
Reapp. 30
2 2 46.5
III. Shadow Egress W. 14 21
n. Transit
Ingress
19 53
n. Eclipse Reapp. W. 15 22 5.6
II. Shadow
Ingress
90 26
I. Transit Egress W. 15 46
I. Transit
Ingress
20 44
I. Shadow Egress W. 15 54
I. Shadow
Ingress
21 0
I. Occult. Disapp. W. 26 10 38
IL Transit
Egress
22 49
I. Eclipse Rei4>p. W. 13 5 13.5
I. Transit
Egress
23 3
n. Transit Ingress 27 6 45
I. Shadow
Egress
23 20
n. Shadow Ingress W. 7 7
n. Shadow
Egress
23 21
I. Transit Ingress W. 7 52
IV. Transit
Ingress W. 31
8 16
I. Shadow Ingress W. 8 2
IV. Shadow
Ingress W.
10 48
II. Transit Egress W. 9 41
IV. Transit
Egress W.
13 0
II. Shadow Egress W. 10 2
IV. Shadow
Egress W.
15 38
I. Transit Egress W. 10 12
I. Occult.
Disapp.
17 56
I. Shadow Egress W. 10 22
I. Eclipse
Reapp.
90 31 37.7
Phases of the Eclipses of the Satellites for an inverting Telescope.
■ e
m.
IV.
^
^
PHENOMENA, 1855.
417
JUPITER'S SATELLITES.
WASHINGTON
MEAN TIME.
SEPTEMBER.
d. h. in. 1.
d.
h. m. «.
m. Transit
Ingress W.
1 13 96
m. Transit
Ingress 8
16 44
n. Occult.
Disapp. W.
14 36
I. Transit
Ingress
16 54
ni. Shadow
Ingress W.
14 40
I. Shadow
Ingress
17 93
I. Transit
Ingress W.
15 10
ra. Shadow
Ingress
18 41
I. ShaHow
Ingress W.
15 38
I. Transit
Egress
19 14
m. Transit
Egress
17 6
I. Shadow
Egress
19 43
I. Transit
Egress
17 23
m. Transit
Egress
90 93
I. Shadow
Egress
17 48
n. Eclipse
Reapp.
90 39 11.6
II. Eclipse
Reapp.
17 57 4.6
m. Transit
Egress
99 91
III. Shadow
Egress
18 91
IV. Eclipse
Reapp.
99 53 8.9
I. Occult.
Disapp. W.
9 19 93
I. Occult.
Disapp. W. 0
14 8
I. Eclipse
Reapp. W.
15 0 93.7
I. Eclipse
Reapp.
16 55 40.9
II. Transit
Ingress W.
3 9 1
n. Transit
Ingress W. 10
11 18
I. Transit
Ingress W.
9 36
I. Transit
Ingress W.
11 90
II. Shadow
Ingress W.
9 44
I. Shadow
Ingress W.
11 51
I. Shadow
Ingress W.
9 57
n. Shadow
Ingress W
19 99
I. Transit
Egress W.
11 55
I. Transit
Egress W.
13 40
II. Transit
Egress W.
11 57
I. Shadow
Egress W.
14 11
I. Shadow
Egress W.
19 17
n. Transit
Egress W.
14 14
11. Shadow
Egress W.
19 40
n. Shadow
Egress
15 19
I. Occult.
Disapp. W.
4 6 40
I. Occult.
Disapp. W.
8 34
I. Eclipse
Reapp. W.
9 99 15.7
I. Eclipse
Reapp. W.
11 94 34.7
III. Occult.
Disapp.
5 9 54
I. Transit
Ingress 19
5 46
II. Occult.
Disapp.
3 33
n. Occult.
Disapp.
5 47
I. Transit
Ingress
4 9
m. Occult.
Disapp.
6 14
I. Shadow
Ingress
4 95
I. Shadow
Ingress
6 90
I. Transit
Egress
6 91
I. Transit
Egress W.
8 6
I. Shadow
Egress W.
6 45
I. Shadow
Egress W.
8 40
n. Eclipse
Reapp. W.
7 14 36.9
n. Eclipse
Reapp. W.
9 49 48.9
III. Eclipse
Reapp. W.
8 5 59.3
in. Eclipse
Reapp. W.
19 7 11.7
I. Occult.
Disapp.
6 1 15
I. Occult.
Disapp. 13
3 0
I. Eclipse
Reapp.
3 58 0.4
I. Eclipse
Reapp.
5 53 90.9
n. Transit
Ingress
99 10
I. Transit
Ingress 14
0 19
I. Transit
Ingress
99 98
n. Transit
Ingress
0 98
I. Shadow
Ingress
99 54
I. Shadow
Ingress
0 49
n. Shadow
Ingress
93 4
n. Shadow
Ingress
1 49
I. Transit
Egress
7 0 48
I. Transit
Egress
9 39
n. Transit
Egress
1 6
I. Shadow
Egress
3 9
I. Shadow
Egress
1 14
n. Transit
Egress
3 94
II. Shadow
Egress
9 0
n. Shadow
Egress
4 38
I. Occult.
Disapp.
19 41
I. Occult.
Disapp.
91 97
I. Eclipse
Reapp.
99 96 53.9
I. Eclipse
Reapp. 15
0 99 15.4
IV. Occult.
Disapp. W.
8 13 30
I. Transit
Ingress
18 39
n. Occult.
Disapp.
16 40
n. Occult.
Disapp.
18 55
53
418
PHENOMENA, 1855.
JUPITER'S SATELLITES.
WASHINGTON
MEAN TIME.
SEPTEMBER.
d.
h. m. «.
d.
h. m. «.
I. Shadow
Ingress 16
19 18
I. Transit
Ingress 99
90 95
UI. Transit
Ingress
20 4
IL Occult.
Disapp.
91 19
I. Transit
Egress
90 59
I. Shadow
Ingress
21 13
I. Shadow
Egress
91 38
I. Transit
Egress
22 44
ni. Shadow
Ingress
92 42
III. Transit
Ingress
23 28
n. Eclipse
Reapp.
93 7 28.0
I. Shadow
Egress
23 32
HI. Transit
Egress
23 44
n. Eclipse
Reapp. 93
1 42 54.1
ra. Shadow
Egress 16
2 22
in. Shadow
Ingress
2 43
I. Occult.
Disapp.
16 63
III. Transit
Egress
3 8
L Eclipse
Reapp.
18 51 4.6
UI. Shadow
Egress
6 23
IV. Transit
Ingress
22 47
I. Occult.
Disapp.
17 40
IV. Transit
Egress 17
3 33
I. Eclipse
Reapp.
20 46 34.1
IV. Shadow
Ingress
6 3
I. Transit
Ingress 94
14 61
IV. Shadow
Egress W.
9 60
I. Shadow
Ingress
16 41
I. Transit
Ingress W.
13 5
n. Transit
Ingress
15 57
II. Transit
Ingress W.
13 37
I. Transit
Egress
17 11
I. Shadow
Ingress W.
13 46
11. Shadow
Ingress
17 40
11. Shadow
Ingress
15 0
I. Shadow
Egress
18 1
I. Transit
Egress
15 25
II. Transit
Egress
18 53
I. Shadow
Egress
16 6
II. Shadow
Egress
20 36
n. Transit
Egress
16 33
IV. Occult.
Disapp. 95
4 25
n. Shadow
Egress
17 67
IV. Occult.
Reapp. W.
9 12
I. Occult.
Disapp. W. 18
10 20
I. Occult.
Disapp. W.
12 7
I. Eclipse
Reapp. W.
13 20 0.1
IV. Eclipse
Disapp. W.
12 31 41.3
I. Transit
Ingress W. 19
7 32
I. Eclipse
Reapp.
15 15 30.8 1
II. Occult.
Disapp. W.
8 3
IV. Eclipse
Reapp.
17 4 24.5
I. Shadow
Ingress W.
8 15
I. Transit
Ingress W. 96
9 18
III. Occult.
Disapp W.
9 37
I. Shadow
Ingress W.
10 10
I. Transit
Egress W.
9 51
II. Occult.
Disapp. W.
10 21
I. Shadow
Egress W.
10 35
I. Transit
EgreM W.
11 38
n. Eclipse
Reapp. W.
12 25 9.3
I. Shadow
Egress W.
12 30
ni. Eclipse
Reapp.
16 8 68.4
III. Occult.
Disapp. W.
13 8
I. Occult.
Disapp. 20
4 46
II. Eclipse
Reapp.
15 0 40.0
I. Eclipse
Reapp. W.
7 48 47.0
ni. Eclipse
Reapp.
20 10 15 i;
I. Transit
Ingress 91
1 58
I. Occult.
Disapp. W. 97
6 33
I. Shadow
Ingress
2 44
I. Eclipse
Reapp. W.
9 44 90.r
II. Transit
Ingress
9 47
I. Transit
Ingress 98
344
I. Transit
Egress
4 18
I. Shadow
Ingress
4 39 1
, II. Shadow
Ingress
4 91
n. Transit
Ingress
5 9 j
I. Shadow
Egress
5 4
I. Transit
Egress
6 4 '
1 II. Transit
Egress
5 43
I. Shadow
regress W.
6 59
II. Shadow
Egress W.
7 17
n. Shadow
Ingress W.
6 59
I. Occult.
Disapp.
93 13
II. Transit
Egrees W.
8 5
I. Eclipse
Reapp. 99
9 17 43.6
n. Shadow
Egress W.
9 65
PHENOMENA, 1855.
419
JUPITER'S SATELLITES.
WASHINGTON
MEAN TIME.
SEPTEMBER.
±
h in. *.
a.
h m. n
L Occuk.
Diaapp.
39
1 0
ni. Transit
Ingress 30
2 57
1. Eclipse
Benpp.
4 13 16.6
11. Eclipse
Reapp,
4 18 29.7
L Transit
Ingress
29 U
III, Transit
Egress W.
6 37
I- Shadow
Ingress
23 B
ni. Shadow
Ingress W
6 45
11. Occult.
Di&app.
23 31
111. Shadow
Egress W.
10 24
L Transit
Egress
30
n 31
L Occult.
Disapp.
10 27
I. Shadow
Egraas
I 28
I. Eclipse
Reapp.
23 43 8.5
Phases of the Ec
ipsas of the Sate
4 r
"7 *
iUites for an inverting Telescope*
.... a :
u.
^
T
•
IV,
f
•
1
v^
7
K^
OCTC
mER.
d.
h, m. 1.
d.
h m. A.
I. Transil
Ingress
I
16 38
I?, Transit
Egress 3
18 47
I. Shadow
Ingresa
17 36
in. OcculL
Reapp.
20 U
IT. Transit
Ingreae
18 SO
TIL Eclipse
Disapp.
20 42 9.5
I. Transit
E^esa
18 58
IV. Shadow
Ingress
23 le
L Shadow
Egreae
19 66
IH; Eclipse
Reapp. 4
0 11 28.9
IL Shadow
Ingress
20 18
IV. Shadow
Egress
4 2
IL Tranait
Egress
2t 16
L Occult.
Disapp, W,
8 22
n. Shadow
Egress
33 14
I. Eclipse
R*app. W.
11 39 56.7
I. Occult.
Disapp.
2
13 54
I. Transit
Ingress 5
5 32
1. Eclipse
Reapp.
17 11 6.6
T. Shadow
Ingress W.
6 34
I. Transit
Ingress W.
3
11 5
n. Transit
Ingress W,
7 32
1. Shadow
Ingrcfia W,
13 5
I. Transit
Egress W.
7 52
n. Occult.
Dmapp. W.
12 41
L Shadow
Egress W.
6 54
h Transit
Egreiis
13 25
n. Shadow
Ingress W,
9 39
JV. Transit
Ingress
13 59
II. Transit
Egresa W.
10 29
I. Shadow
Egress
U 25
IL Shadow
Egress W.
12 34
ra. Occult,
Disapp.
16 33
I. Occult.
Disapp. 6
2 40
II. Eclipse
Respp,
17 36 20.0
1. Eclipse
Reapp.
6 a 54.4
f
I
420
PHENOMENA, 1855.
JUPITER'S
SATELLITES.
WASHINGTON
MEAN TIME.
OCTOBER.
d.
h. m.
«.
d.
h. m. a.
I. Transit
Ingress 7
0 0
n. Transit
Egress 13
19 55
I. Shadow
Ingress
1 3
n. Shadow
Egress
15 13
n. Occult.
Disapp.
1 53
I. Occult.
Disapp. 13
4 39
I. Transit
Egress
8 19
I. Eclipse
Reapp. W.
8 4 36.5
I. Shadow
Egress
3 93
I. Transit
Ingress 14
1 49
III. Transit
Ingress W.
6 30
I. Shadow
Ingress
9 58
n. Eclipse
Reapp. W.
6 54
15.1
I. Transit
Egress
4 9
m. Transit
Egress W.
10 11
II. Occult.
Disapp.
4 17
m. Shadow
Ingress W.
10 47
I. Shadow
Egress
5 17
ni. Shadow
Egress
14 36
II. Eclipse
Reapp. W.
9 30 10.3
I. Occult.
Disapp.
31 16
III. Transit
Ingress W.
10 8
I. Eclipse
Reapp. 8
0 37
47.1
m. Transit
Egress
13 49
I. Transit
Ingress
18 37
III. Shadow
Ingress
14 49
I. Shadow
Ingress
19 33
m. Shadow
Egress
18 97
n. Transit
Ingress
30 45
I. Occult.
Disapp.
93 6
I. Transit
Engross
30 47
I. Eclipse
Reapp. 15
3 33 98.9
I. Shadow
Egress
31 51
I. Transit
Ingress
90 16
n. Shadow
Ingress
33 57
I. Shadow
Ingress
31 37
n. Transit
Egress
33 41
I. Transit
Egress
33 36
II. Shadow
Egress 9
1 53
n. Transit
Ingress
33 19
I. Occult.
Disapp.
15 44
I. Shadow
Egress
93 46
I. Eclipse
Reapp.
19 6
45.9
n. Shadow
Ingress 16
1 35
I. Transit
Ingress W. 10
13 54
a Transit
Egress
9 8
I. Shadow
Ingress
14 0
n. Shadow
Egress
4 31
n. Occult.
Disapp.
15 4
I. Occult.
Disapp.
17 34
I. Transit
Egress
15 14
I. Eclipse
Reapp.
91 9 98.3
I. Shadow
Egress
16 90
I. Transit
Ingress 17
14 44
m. Occult.
Disapp.
90 8
I. Shadow
Ingress
15 55
n. Eclipse
Reapp.
30 13
10.7
I. Transit
Egress
17 4
m. Occult.
Reapp.
93 50
n. Occult.
Disapp.
17 30
III. Eclipse
Disapp. 11
0 43
46.8
I. Shadow
Egress
18 15
m. Eclipse
Reapp.
4 13
48.6
II. Eclipse
Reapp.
99 48 10.9
I. Occult.
Disapp. W.
10 11
m. Occult.
Disapp.
93 49
I. Eclipse
Reapp.
13 35
37.0
m. Occult.
Reapp. 18
3 SO
IV. Occult,
Disapp.
90 3
ni. Eclipse
Disapp.
4 45 43.6
rvr. Oecdt.
Reapp. 13
0 59
m. Eclipse
Reapp. W.
8 14 19.8
lY. Eclipse
Disapp. W.
6 47
13.4
I. Occuk.
Disapp. W.
19 9
I. Transit
Ingress W.
7 91
I. Eclipse
Reapp.
15 31 90.1
I. Shadow
Ingress W.
8 99
I. Transit
Ingress W. 19
9 19
I. TraMit
Egress W.
9 41
I. Shadow
Ingress W.
10 94
n. TraMit
Ingress W.
9 68
I. Transit
Egress W.
11 31
I. Shadow
Egress W.
10 49
n. Transit
Ingress
19 97
IV. Eclipse
Reapp. W.
11 16
45.6
I. Shadow
Egress
19 44
n. Shadow
Ingress W.
19 16
II. Shadow
Ingrsss
14 54
PHENOMENA, 1855.
421
JUPITER'S SATELLITES.
WASHINGTON
MEAN TIME.
OCTOBER.
d.
h. m. a.
d.
h. m. a.
1 II. Transit
Egress 10
15 23
I. Transit
Ingress W. 26
11 3
n. Shadow
Egress
17 50
I. Shadow
Ingress
12 19
IV. Transit
Ingress W. 20
6 8
I. Transit
Egress
13 23
I. Occult.
Disapp.W.
6 30
I. Shadow
Egress
14 39
I. Eclipse
Reapp. W.
10 0 18.9
n. Transit
Ingress
14 68
rV. Transit
Egress W.
10 58
n. Shadow
Ingress
17 33
IV. Shadow
Ingress
17 34
n. Transit
Egress
17 64
IV. Shadow
Egress
22 15
n. Shadow
Egress
20 20
I. Transit
Ingress 91
3 39
I. Occult.
Disapp. W. 27
8 22
I. Shadow
Ingress
4 53
I. Eclipse
Reapp.
11 56 4.1
I. Transit
Egress W.
5 58
I. Transit
Ingress 28
6 31
n. Occult.
Di8app.W.
6 43
I. Shadow
Ingress W.
6 48
I. Shadow
Egress W.
7 13
I. Transit
Egress W.
7 61
n. Eclipse
Reapp. W.
12 6 15.1
I. Shadow
Egress W.
9 8
m. Transit
Ingress
13 51
n. Occult.
Disapp. W.
9 12
m. Transit
Egress
17 32
IV. Occult.
Disapp.
12 42
ra. Shadow
Ingress
18 50
n. Eclipse
Reapp.
14 42 30.2
m. Shadow
Egress
22 29
IV. Occult.
Reapp.
17 32
I. Occult.
Disapp. 23
0 58
III. Transit
Ingress
17 38
I. Eclipse
Reapp.
4 29 13.0
m. Tnmsit
Egress
21 20
I. Transit
Ingress
22 7
m. Shadow
Ingress
22 52
I. Shadow
Ingress
23 22
IV. Eclipse
Disapp. 29
1 2 51.9
I. Transit
Egress 23
0 27
m. Shadow
Egress
2 30
I. Shadow
Egress
1 42
I. Occult.
Disapp.
2 60
n. Transit
Ingress
1 42
IV. Eclipse
Reapp.
5 28 48.7
n. Shadow
Ingress
4 14
I. Eclipse
Reapp. W.
6 24 68.3
n. Transit
Egress
4 38
I. Transit
Ingress 30
0 0
n. Shadow
Egress W.
7 10
I. Shadow
Ingress
1 17
I. Occult.
Disapp.
19 26
I. Transit
Egress
2 20
I. Eclipse
Reapp.
22 58 12.7
I. Shadow
Egress
3 37
I. Transit
Ingress 24
16 36
n. Transit
Ingress
4 14
I. Shadow
Ingress
17 51
n. Shadow
Ingress W.
6 53
I. Transit
Egress
18 55
II. Transit
Egress W.
7 10
IL Occult.
Disapp. -
19 67
n. Shadow
Egress W.
0 48
I. Shadow
Egrem
90 10
I. Occult.
Disapp.
21 18
n. Eclipse
Reapp. 25
1 24 21.5
I. Eclipse
Reapp. 31
0 63 5^3
m. Occult.
Disapp.
3 35
I. Transit
Ingress
18 28
m. Occult.
Reapp. W.
7 16
I. Shadow
Ingress
10 46
m. Eclipse
Disapp.W.
8 48 21.0
I. Transit
Egress
20 48
m. Eclipse
Reapp.
12 16 30.4
I. Shadow
Egress
22 6
I. Occult.
Disapp.
13 54
n. Occult.
Disapp.
22 28
I. Eclipse
Reapp.
17 27 5.1
422
PHENOMENA, 1855.
JUPITER'S SATELLITES. j|
WASHINGTON
MEAN TIME.
OCTOBER.
Phases of the Eclipses of the Satellites for an inverting Telescope.
I.
H
A r
7 *
in.
w
d r
• •
U.
^
a r
-t
J
d r
• •
NOVE]
MBER.
d. h. m. ••
d. h. m. a.
n. Eclipse
Reapp.
1 4 0 4d.3
m. Shadow
Egress W.
5 6 31
in. Occult.
Disapp. W.
7 96
I. Eclipse
Reapp. W.
8 90 44.1
III. Occult.
Reapp. W.
11 7
IV. Transit
Ingress
93 19
III. Eclipse
Disapp.
12 50 36.8
I. Transit
Ingress
6 1 53
I. Occult.
Disapp.
16 47
I. Shadow
Ingress
3 13
ni. EclipM
Reapp.
16 18 18.3
IV. Transit
Egress
4 9
I. Eclipse
Reapp.
19 39 61.0
I. Transit
Egress
4 19
I. Transit
Ingress
S 18 56
I. Shadow
Egress W.
5 39
I. Shadow
Ingress
14 15
n. Transit
Ingress W.
6 48
I. Transit
Egress
15 16
n. Shadow
Ingress W.
9 31
I. Shadow
Egress
16 35
n. Transit
Egress W.
9 45
n. Transit
Ingress
17 31
IV. Shadow
Ingress
11 51
n. Shadow
Ingress
SO 18
n. Shadow
Egress
19 97-
n. Transit
Egress
90 98
IV. Shadow
Egress
16 98
n. Shadow
Egress
93 8
I. Occult.
Disapp.
93 19
I. Occult.
Disapp. W.
3 10 15
I. Eclipse
Reapp.
7 9 49 44.0
I. Eclipse
Reapp.
13 51 40.8
I. Transit
Ingress
90 91
I. Transit
Ingress W.
4 7 94
I. Shadow
Ingress
91 49
'I. Shadow
Ingress W.
844
I. Transit
Egress
99 41
I. Transit
Egress W.
9 44
I. Shadow
Egress
8 0 1
I. Shadow
Egress W.
11 3
II. Occult.
Disapp.
1 1
n. Occult.
Disapp.
U 44
n. Eclipse
Reapp. W.
6 37 19.5
II. Eclipse
Reapp.
17 18 64.9
in. Occult.
Disapp. W.
11 91
in. Transit
Ingress
91 30
III. Occult.
Reapp.
15 9
in. Transit
Egress
5 1 19
ni. Eclipse
Disapp.
16 53 13.3
III. Shadow
Ingress
9 53
1. Occult.
Disapp.
17 41
I. Occult.
Disapp.
4 44
m. Eclipse
Reapp.
90 90 95.5
1
PHENOMENA, 1855.
423
1 '■
JUPITER'S SATELLITES,
WASHINGTON
MEAN TIME.
NOVEMBER.
d.
h. m. ■•
d.
h. m. a.
I. Eclipse
Reapp. 8
21 18 36.8
m. Occult.
Reapp. 15
19 3
I. Transit
Ingress 0
14 50
I. Occult.
Disapp.
19 36
I. Shadow
Ingress
16 11
m. Eclipse
Disapp.
30 55 15.1
I. Transit
Egress
17 10
I. Eclipse
Reapp.
83 14 21.7
I. Shadow
Egress
18 30
m. Eclipse
Reapp. 16
0 21 67.1
II. Transit
Ingress
SO 7
I. Transit
Ingress
16 46
II. Shadow
Ingress
23 51
I. Shadow
Ingress
18 6
n. Transit
Egress
23 4
I. Transit
Egress
19 5
II. Shadow
Egress 10
1 46
I. Shadow
Egress
30 85
I. Occult.
Disapp.
13 10
it. Transit
Ingress
83 44
I. Eclipse
Reapp.
15 47 35.4
n. Shadow
Ingress 17
1 89
I. Transit
Ingress W. 11
0 19
n. Transit
Egress
1 41
I. Shadow
Ingress W.
10 39
n. Shadow
Egms
4 34
I. Transit
Egress
11 39
I. Occult.
Disapp.
14 5
I. Shadow
Egress
13 59
I. Eclipse
Reapp.
17 43 19.7
n. Occult.
Disapp.
14 19
I. Transit
Ingress 18
11 14
II. Eclipse
Reapp.
19 55 39.0
I. Shadow
Ingress
13 36
III. Transit
Ingress Id
1 37
I. Transit
Egress
13 34
III. Transit
Egress
5 9
I. Shadow
Egress
14 64
I. Occult.
Disapp. W.
6 38
n. Occult.
Disapp.
16 66
III. Shadow
Ingress W.
6 55
n. Eclipse
Reapp.
88 33 18.3
I. Eclipse
Reapp. W.
10 16 89.6
III. Transit
Ingress W. 19
5 89
m. Shadow
Egress W.
10 33
I. Occult.
Disapp. W.
8 34
I. Transit
Ingress 13
3 48
III. Transit
Egress W.
9 11
I. Shadow
Ingress
5 8
ni. Shadow
Ingress
10 68
I. Transit
Egress W.
6 8
I. Eclipse
Reapp.
13 18 13.4
I. Shadow
Egress W.
7 38
m. Shadow
Egress
14 34
II. Transit
Ingress W.
9 30
I. Transit
Ingress W. 30
5 43
II. Shadow
Ingress
18 10
L Shadow
Ingress W.
7 4
IL Transit
Egress
13 33
I. Transit
Egress W.
8 3
n. Shadow
Egress
15 5
I. Shadow
Egress W.
9 83
I. Occult.
Disapp. 14
1 7
II. Transit
Ingress
18 4
I. Eclipse
Reapp.
4 45 89.3
n. Shadow
Ingress
14 48
IV. Occult.
Disapp. W.
6 33
II. Transit
Egress
15 0
IV. Occult.
Reapp.
11 13
U. Shadow
Egress
17 43
IV. Eclipse
Disapp.
19 19 8.4
I. Occult.
Disapp. 31
3 3
I. Transit
Ingress
33 16
I. Eclipse
Reapp. W.
6 41 18.5
I. Shadow
Ingress
23 37
I. Transit
Ingress 33
0 18
IV. Eclipse
Reapp.
33 41 7.6
I. Shadow
Ingress
1 33
I. Transit
Egress 16
0 36
I. Transit
Egress
3 38
I. Shadow
Egress
1 57
I. Shadow
Egress
3 58
n. Occult.
Disapp.
3 37
II. Occult.
Disapp. W.
6 15
II. Eclipse
Reapp. W.
9 13 53.5
n. Eclipse
Reapp.
11 50 41.9
m. Occult.
Disapp.
15 81
IV. Transit
Ingress
17 89
424
PHENOI^IENA, 1855.
JUPITER'S
» SATELLITES.
WASHINGTON
MEAN TIME.
NOVEMBER.
d. h. m.
s.
d.
h. m. s.
in. Occult.
Disapp. 99 19 95
I. Eclipse
Reapp. 96
14 7 55.0
I. Occult.
Disapp. 91 39
m. Shadow
Ingress
15 0
IV. Transit
Egress 99 19
m. Shadow
Egress
18 36
m. Occult.
Reapp. 93 6
I. Transit
Ingress W. 97
7 40
III. Eclipse
Disapp. 93 0 57
9.1
I. Shadow
Ingress W.
8 59
I. Eclipse
Reapp. 1 10
4.6
I. Transit
Egress W.
9 59
m. Eclipse
Reapp. 4 93
19.9
I. Shadow
Egress
11 19
IV. Shadow
Ingress W. 6 8
n. Transit
Ingress
14 45
IV. Shadow
Egress 10 41
II. Shadow
Ingress
17 96
I. Transit
Ingress 18 41
II. Transit
Egress
17 41
I. Shadow
Ingress 90 1
n. Shadow
Egress
90 91
I. Transit
Egress 91 1
I. Occult.
Disapp. 98
5 0
I. Shadow
Egress 99 91
I. Eclipse
Reapp. W.
8 36 53.6
II. Transit
Ingress 94 1 95
I. Transit
Ingress 99
9 9
n. Shadow
Ingress 4 7
I. Shadow
Ingress
398
II. Transit
Egress 4 91
I. Transit
Egress
4 99
II. Shadow
Egress W. 7 9
I. Shadow
Egress W.
5 47
I. Occult.
Disapp. 16 9
II. Occult.
Disapp. W.
8 55
I. Eclipse
Reapp. 19 39
1.9
n. Eclipse
Reapp.
14 97 39.7
I. Transit
Ingress 95 13 10
I. Occult.
Disapp.
93 30
I. Shadow
Ingress 14 30
in. Occult.
Disapp.
93 33
I. Transit
Egress 15 30
I. Eclipse
Reapp. 30
3 5 45.9
I. Shadow
Egress 16 50
ni. Occult.
Reapp.
3 14 •
II. Occult.
Disapp. 19 35
III. Eclipse
Disapp.
4 59 7.1
II. Eclipse
Reapp. 96 1 9
4.5
m. Echpse
Reapp. W.
8 94 45.5
III. Transit
Ingress W. 9 36
I. Transit
Ingress
90 39
I. Occult.
Disapp. 10 31
I. Shadow
Ingress
91 57
III. Transit
Egress 13 17
I. Transit
Egress
99 58
Phases of the Eclipses of the SaU
jlUtes for an inverting Telescope.
L
w-
m.
M'
r
•
IL
a '
- f^
^ :
J r
*vj •
t
y
II
PHENOI^IENA, 185».
425
JUPITER'S SATELLITES.
"■'•"
WASHINGTON
MEAN TIME.
DECEMBER. |
d. h. m.
■•
d.
h. m. a.
I. Shadow
Egress
1 0 16
m. Eclipse
Reapp. 7
18 86 16.3
IV. Occult.
Disapp.
1 1
I. Transit
Ingress
33 37
n. Ttansit
Ingress
4 e
I. Shadow
Ingress
33 53
IV. Occult.
Reapp. W.
5 50
I. Transit
Egress 8
0 56
II. Shadow
Ingress W.
6 45
I. Shadow
Egress
3 13
II. Transit
Egress W.
7 3
n. Transit
Ingress W.
6 49
II. Shadow
Egress W.
9 40
U. Shadow
Ingress W.
9 83
IV. Eclipee
Disapp.
13 36
36.9
n. Transit
Egress
9 45
IV. Eclipse
Reapp.
17 54
1.1
II. Shadow
Egress
18 18
I. Occult.
Disapp.
17 59
I. Occult.
Disapp.
19 58
I. Eclipse
Reapp.
SI 34
41.8
I. Eclipse
Reapp.
83 30 18.5
I. Transit
Ingress
S 15 8
IV. Transit
Ingress 9
13 30
I. Shadow
Ingress
16 88
I. Transit
Ingress
17 6
I. Transit
Egress
17 87
IV. Transit
Egress
17 19
I. Shadow
Egress
18 45
L Shadow
Ingress
18 33
II. Occult.
Disapp.
39 16
I. Transit
Egress
19 86
II. Eclipse
Reapp.
3 3 40
4.9
I. Shadow
EgreM
80 41
I. Occult.
Disapp.
13 30
IV. Shadow
Ingress 10
0 85
III. Transit
Ingress
13 46
II. Occult.
Disapp.
0 59
I. Eclipse
Reapp.
16 3
34.3
IV. Shadow
Egress
4 54
ni. Transit
Egress
17 37
n. Eclipse
Reapp. W.
6 83 13.7
III. Shadow
Ingress
19 3
I. Occult.
Disapp.
14 87
UI. Shadow
Egress
33 38
m. Transit
Ingress
17 59
I. Transit
Ingress W.
4 9 38
I. Eclipse
Reapp.
17 59 10.0
I. Shadow
Ingress
10 55
ni. Transit
Egress
31 40
I. Transit
Egress
11 57
III. Shadow
Ingress
33 4
I. Shadow
Egress
13 14
m. Shadow
Egress 11
3 39
n. Transit
Ingress
17 87
I. Transit
Ingress
11 36
n. Shadow
Ingress
30 4
I. Shadow
Ingress
13 50
II. Transit
Egress
30 83
I. Transit
Egress
13 55
n. Shadow
Egress
33 59
I. Shadow
Egress
15 10
I. Occult.
Disapp. W.
5 6 58
n. Transit
Ingress
80 11
I. Eclipse
Reapp.
10 33
33.1
n. Shadow
Ingress
33 41
I. Transit
Ingress
0 4 7
II. Transit
Egress
33 8
I. Shadow
Ingress W.
5 34
U. Shadow
Egress 18
1 36
I. Transit
Egress W.
6 86
I. Oecult.
Disapp. W.
8 57
I. Shadow
Egress W.
7 43
I. Eclipse
Reapp.
13 88 6.7
IL Occult.
Disapp.
11 37
I. Transit
Ingress W. 13
6 6
n. Eclipse
Reapp.
17 4
46.3
I. Shadow
Ingress W.
7 19
I. Occult.
Disapp.
7 1 38
I. Transit
Egress W.
8 85
m. Occult.
Disapp.
3 45
L Shadow
Egress
9 38
I. Eclipse
Reapp.
5 1
33.1
n. Occult.
Disapp.
14 81
m. Occult.
Reapp. W.
786
II. Eclipse
Reapp.
19 48 0.7
m. Eclipse
Disapp. W.
9 1
11.3
I. Occult.
Disapp. 14
3 87
A
54
426
PHENOMENA, 1855.
JUPITER'S
SATELLITES.
=
WASHINGTON
MEAN TIME.
DECEMBER.
d.
h. m.
■.
d.
h. m. •.
I. Eclipse
Reapp. W. U
6 66
66.9
1. Shadow
Egress 90
11 34
m. Occult.
Disapp. W.
8 0
II. Occult.
Disapp.
17 7
m. Occult.
Reapp.
11 41
n. Eclipse
Reapp.
99 19 99.5
III. Eclipse
Disapp.
13 3
51.1
I. Occult.
Disapp. W. 91
5 96
m. Eclipse
Reapp.
16 28
91.7
I. Eclipse
Reapp.
8 59 96.3
I. Transit
Ingress 15
0 36
m. Occult.
Disapp.
19 19
I. Shadow
Ingress
1 48
III. Occult.
Reapp.
15 59
I. Transit
Egress
9 55
m. Eclipse
Disapp.
17 6 9.6
I. Shadow
Egress
4 7
m. Eclipse
Reapp.
90 29 57.6
II. Transit
Ingress
9 34
I. Transit
Ingress 99
9 35
n. Shadow
Ingress
13 0
I. Shadow
Ingress
3 44
11. Transit
Egress
19 30
I. Transit
F^gress
4 64
II. Shadow
Egress
14 55
I. Shadow
Egress W.
6 3
I. Occult.
Disapp.
91 57
n. Transit
Ingress
19 90
I. Eclipse
Reapp. 16
1 95
51.0
II. Shadow
Ingress
14 38
I. Transit
Ingress
19 5
IL Transit
Egress
16 16
I. Shadow
Ingress
90 17
n. Shadow
Egress
17 33
I. Transit
Egress
91 95
I. Occult.
Disapp.
93 56
I. Shadow
Egress
99 36
I. Eclipse
Reapp. 93
3 91 19.1
II. Occult.
Disapp. 17
344
I. Transit
Ingress
91 5
II. Eclipse
Reapp.
9 0
99.9
I. Shadow
Ingress
99 19
I. Occult.
Disapp.
16 97
I. Transit
Egress
93 94
I. Eclipse
Reapp.
19 54
41.6
I. Shadow
Egress 94
0 32
IV. Occult.
Disapp.
90 95
II. Occult,
Disapp. W.
6 30
m. Transit
Ingress
99 16
n. Eclipse
Reapp.
11 37 53.1
IV. Occult.
Reapp. 18
1 14
I. Occult.
Disapp.
18 96
m. Transit
Egress
1 56
I. Eclipse
Reapp.
91 50 8.6
m. Shadow
Ingress
3 6
m. Transit
Ingress 95
9 36
III. Shadow
Ingress W.
6 41
III. Transit
Egress W.
6 16
IV. EclipM
Disapp. W.
7 63
19.3
m. Shadow
Ingress W.
7 9
IV. Eclipse
Reapp.
19 0
3.6
III. Shadow
Egress
10 43
I. Transit
Ingress
13 35
I. Transit
Ingress
15 36
I. Shadow
Ingress
14 46^
I. Shadow
Ingress
16 41
I. Transit
Egress
15 55
I. Transit
Egress
17 64
I. Shadow
Egress
17 5
I. Shadow
Egress
19 1
n. Transit
Ingress
99 57
II. Transit
Ingress 96
1 43
n. Shadow
Ingress 19
1 19
II. Shadow
Ingress
3 56
n. Transit
Egress
1 53
II. Transit
Egress
4 39
II. Shadow
Egress
4 14
n. Shadow
Egress W.
6 51
I. Occult.
Disapp.
10 56
IV. Transit
Ingress W.
8 16
I. Eclipse
Reapp.
14 93
37.0
I. Occult.
Disapp.
19 66
I. Transit
Ingress W. 90
8 5
IV. Transit
Egress
13 1
1. Shadow
Ingress
9 15
I. Eclipse
Reapp.
16 19 9.7
I. Transit
Egress
10 94
IV. Shadow
Ingress
18 43
PHENOMENA, 1855. 42T
JUPITER'S SATELLITES.
WASHINGTON
MEAN TIME.
1
DECEMBER.
d.
h. m. ■.
4
h. m. a.
IV. Shadow
Egress 26
23 7
I. Shadow Egress W. 29
7 58
I. Transit
Ingress 27
10 5
II. Transit Ingress
15 8
I. Shadow
Ingress
11 10
II. Shadow Ingress
17 15
I. Transit
Egress
12 24
n. Transit Egress
18 4
I. Shadow
Egress
13 30
11. Shadow Egress
20 10
II. Occult.
Disapp.
19 63
I. Occult. Disapp. 30
1 57
11. Eclipse
Reapp. 28
0 56 51.4
I. Eclipse Reapp.
5 16 42.2
I. Occult.
Disapp. W.
7 26
I. Transit Ingress
23 6
I. Eclipse
Reapp.
10 47 50.8
I. Shadow Ingress 31
0 8
m. Occult.
Disapp.
16 41
I. Transit Egress
1 25
III. Occult.
Reapp.
20 20
I. St^adow Egress
2 27
III. Eclipse
Disapp.
21 8 28.4
II. Occult. Disapp.
9 16
III. Eclipse
Reapp. 29
0 31 46.8
n. Eclipse Reapp.
14 15 23.2
I. Transit
Ingress
4 36
I. Occult. Disapp.
20 27
I. Shadow
Ingress W.
5 39
I. Eclipse Reapp.
23 56 30.4
I. Transit
Egress W.
6 65
Phases of the Eclipses of the Sate
illites for an inverting Telescope.
I.
w
r
•
- ©•
r
•
II.
r^
r
•
nY ^ -
r
•
( )
IV. .
\^
vJ
428 JUPITER'S SATELLITES.
1855. -WASHINGTON MEAN TIME OF GEOCENTRIC SUPERIOR CONJUNCTION.
SATELLITE I.
h. m.
h m.
h m.
h m.
Feb.... 28
18 28.7
May.. 17
16 10.3
Aug.... 3
12 10.0
Oct.. .20
7 39.5
1
March.. 2
12 59.0
« 19
10 38.9
« 5
6 36.0
" 22
2 7.5
4
7 29.2
u 21
5 7.3
" 7
1 2.1
" 23
20 35.6
« 6
1 59.4
« 22
23 35.7
« 8
19 28.1
« 25
15 3.6
« 7
20 S9.6
« 24
18 4.2
« 10
13 54.1
« 27
9 31.7
« 9
14 59.7
" 26
12 32.6
" 12
8 20.1
« 29
3 59.9
1
" 11
9 29.9
" 28
7 1.0
" 14
2 46.1
« 30
22 28.3
« 13
4 0.0
" 30
1 29.2
" 15
21 12.1
N0T....1
16 56.7
« 14
22 30.0
" 31
19 57.3
" 17
15 38.0
8
11 25.1
" 16
17 0.0
Jane... 2
14 25.5
" 19
10 4.1
5
6 53.6
" 18
11 30.1
" 4
8 53.6
u 21
4 30.2
7
0 22.2
« 20
6 0.3
6
3 21.5
a 22
22 56.1
" 8
18 50.8
« 22
0 30.3
" 7
21 49 4
«i 24
17 22.1
« 10
13 29.5
« 23
19 0.2
9
16 17.2
« 26
11 48.1
" 12
7 48JJ
« 25
13 30.1
« 11
10 45.1
« 28
6 14.2
" 14
2 17JJ
« 27
8 0.0
" 13
* 5 12.8
" 30
0 40.2
« 15
20 46.2
** 29
2 29.8
" 14
23 40.5
" 31
19 6.3
« 17
15 15.2
« 30
20 59.6
" 16
18 8.1
Sept... 2
13 32.4
" 19
9 44.2
April... 1
15 29.4
" 18
12 35.6
« 4
7 58.7
« 21
4 13UI
« a
9 59.2
« 20
7 3.1
" 6
2 24.9
" 22
22 42.2
" 5
4 28.9
u 22
1 30.4
« 7
20 51.2
tt 24
17 11.6
6
22 58.5
« 23
19 57.8
« 9
15 17.5
« 26
11 40.9
« • 8
17 88.3
« 25
14 25.0
« 11
9 43.9
« 28
6 10.3
" 10
U 58.0
« 27
8 52.2
" 13
4 10.2
« 30
0 397
a 12
6 27.6
« 29
3 19.3
" 14
22 36.6
Dec. ... 1
19 9.1
« 14
0 57.2
« 30
21 46.4
" 16
17 3.1
3
13 38.6
« 15
19 26.6
Jal^...2
16 13.5
" 18
11 29.7
5
8 8.2
" 17
13 56.1
10 40.4
« 20
5 56.3
« 7
2 37.8
" 19
8 25.6
" 6
5 7.3
" 22
0 23.0
8
21 7A
« 21
2 55.0
« 7
23 34.1
" 23
18 49.7
« 10
15 37.2
« 22
21 24.3
9
18 0.8
" 25
13 16.5
u ,2
10 6.9 1
" 24
15 53.6
" 11
12 27.5
" 27
7 43.3
" 14
4 36.6 r
« 26
10 22.9
" 13
6 54.2
" 29
2 10J3
" 15
23 6.5 i
" 28
4 52.1
« 15
1 20.8
" 30
20 37.4
« 17
17 36.4 ll
« 29
23 21.3
" 16
19 47.3
Oct ... 2
15 4.5
" 19
12 6J!
May...l
17 50.4
« 18
14 13.7
" 4
9 31.6
« 21
6 36 J ,
3
12 19.5
" 20
8 40.2
" 6
3 58.9
" 23
I 61 1
" 5
6 48.5
« 22
3 6.6
" 7
22 26,2
« 24
19 36.1
7
1 17.5
" 23
21 330
« 9
16 53.6
" 26
14 6.2
" 8
19 46.4
" 25
15 59.2
" 11
11 210
" 28
8 36.3
" 10
14 15.3
« 27
10 25.4
« 13
5 48.6
" 30
3 6.5 1
4C ,2
8 44.1
" 29
4 51.6
" 15
0 16.2
« 31
21 36,7
" 14
a 12.9
« 30
23 17.7
" 16
18 44.0
1
" 15
21 41.6 Aiig....l 1
17 43.9
" 18
13 11.7
1
SATELLITE
II-
1
h. m.
h. m
h. in.
h m. 1
Feb.... 28
22 17.5
BCarch.l8
17 23.5
April... 5
12 24.3
April.. 23
7 16.0
, March. .4
11 42.7
« 22
6 48.6
« 9
1 47.0
« 26
20 37.4 1
• " 8
I 8.7
« 25
20 12.6
(1 12
15 lO.l
« 30
9 57.9
" 11
14 33.5
« 29
9 37.1
" 16
4 32.4
May... 3
23 18.4 '
« 15
3 59.1
April... 1
23 0.4
« 19
17 54.6
" 7
12 381 ;
JUPITER'S SATELLITES. 429
1855.- WASHINGTON MEAN TIME OF GEOCENTRIC SUPERIOR CONJUNCTION.
SATELLITE
IL
M.....U
« 18
« 21
« 25
h. m.
1 57.7
15 16.5
4 35.0
17 52.8
7 10.3
July... 10
« 14
" 17
u 21
" 24
h. m.
11 4.5
0 14.0
13 23.0
2 31.5
15 39.7
Sept.... 8
" 12
« 15
« 19
« 22
h. in.
18 7.6
7 15.0
20 22.2
9 31.1
22 39.8
Not. ... 8
" 11
« 15
" 18
" 22
h- m.
2 29Ji
15 47.0
5 5.3
18 24.0
7 43.4
« 28
Jane ... 1
4
" 8
« 12
20 27.0
9 43.3
22 58.9
12 14.1
1 28.7
" 28
" 31
Aug.... 4
7
" 11
4 47.5
17 55.0
7 2.1
20 9.1
9 15.8
" 26
" 30
Oct.... 3
u 7
" 10
11 49.0
0 59.0
14 9.5
3 20.5
16 32.2
" 25
" 29
Dec ... 2
6
" 10
21 3.0
10 23.3
23 44.0
13 6.5
2 27.1
" 15
" 19
** 22
« 26
« 29
14 42.8
3 56.2
17 9.1
6 21.3
19 32.8
" 14
" 18
« 22
" 25
" 29
22 22.3
11 28.8
0 35.8
13 41.4
2 47.6
" 14
" 17
" 21
" 24
" 28
5 44.6
18 57.6
8 11.3
21 25.6
10 40.6
" 13
" 17
" 20
« 24
« 27
15 49.5
5 11.9
18 35.0
7 58.1
21 22.0
July. ...3
. •* 6
8 48.9
21 54.5
Sept....l
" 5
15 54.0
5 0.6
« 31
Nov.... 4
23 .'>6.3
13 12.5
« 31
10 45.8
SATELLITE
III.
March.. 3
" 10
« 17
" 24
" 31
h m.
0 85.0
5 2.8
9 29.4
13 54.0
18 16.9
May. ..20
" 28
Jane ... 4
« 11
« 18
h. in.
23 45.9
3 45.1
7 40.1
11 31.0
15 16.8
Aug.... 7
" 14
« 21
" 29
Sept. ..5
h. m.
15 38.2
18 53.7
22 9.3
1 25.4
4 43.4
Oct. . . 25
N0V....I
8
" 15
« 22
b. m.
6 25.8
9 16.3
13 11.9
17 11.6
21 15.4
April...?
" 15
u 22
. " 29
May. ..6
22 38.5
2 57.3
7 13.9
11 27.0
15 36.8
« 25
Jaly....2
r« 10
« 17
« 24
18 57.6
22 33.8
2 5.5
6 33.8
8 57.9
« 12
" 19
" 26
Oct. ...3
" 10
8 3.4
11 26.7
14 53.2
18 23.9
21 59.3
« 30
Dec.... 7
«« 14
tt 21
•* 28
1 23.3
5 35.0
9 50.8
14 9.1
18 30.5 1
*• 13
19 43.2
« 31
12 19.3
" 18
1 39.7
SATELLITE
IV.
Feb... 19
March.. 8
" 25
April. 11
" 28
h. m.
22 20.3
19 6.7
15 36.8
11 42.3
7 17.4
Bfay..l5
« 31
Jane.. 17
Jaly...4
^ 20
h. m.
2 13.6
20 20.0
13 314
5 46.7
21 3.7
Aag....6
« 23
Sept. . . 8
« 25
Oct.. .11
h. m.
11 36.4
1 47.0
16 1.7
6 48.5
22 27.8
Oct.. 28
NOY...14
Dec. ... 1
" 17
h. m.
15 6.9
8 48.0
3 25.5
22 49.4
FftCtOT
tain the c
B by which a/ and y' in the following Tal
coordinates x and y for any time.
)le must
be multipru
id to ob-
p = ti
le inclination of the northern Semiminor
Axis of t
he apparen
t ellipse
to the cii
rcle of Declination ; + East, — West.
xand 1
second e
/ at the time of the visible phase of every
clipse for the n**, and of every eclipse for
fourth eel
the in«« ai
ipse for I**,
ad IVi»» Sati
of every
air—
430 JUPITER'S SATELLITES.
SATELLITE I.
AT GEOCENTRIC SUPE-
AT TIME OF 1
AT GEOCENTRIC SUPB-
ATTIMBOPI
1855.
RIOR CONJUNCTION
•ECLl
PSE.
Data, 1
1855. 1
RIOR CONJUNCTION.
ECUFSE. 1
Factor
Factor
Factor
Factor
1
for X'.
fory.
P
s.
y-
for**.
fory'.
P
*.
»' 1
Feb.
27
0.871
—0.027
—19 31.6
n
—23
— 0
Aog.
1
1.281
-M).355
O 1
—22 49.2
u
—33
-hSJ
March 6
0.878
—0.009
19 58.6
24
0
8
1.291
0.354
22 39.3
30
2|
13
0.887
-K).009
20 24.0
26
— 0
15
1.297
0.349
22 28.5
—26
2 >
20
0.897
0.028
20 47.7
28
•+• 0
22
1.297
0.341
22 17.0
-h26
2,
27
0.908
0.047
21 9.7
30
0
30
1.294
0.330
22 5.3
29
2'
April
3
0.922
H-0.067
—21 29.9
—32
•+• 0
Sept
6
1.285
-M).317
-21 53.8
-1-32
-h2|
10
0.9.36
0.087
21 48.3
33
13
1.273
0.303
21 43X)
35
«
17
0.952
0.107
22 4.9
35
20
1.256
0.288
21 33.5
37
2'
24
0.970
0.127
22 19.8
36
1
27
1.236
0.272
21 2.^.5
39
2,
May
1
0.990
0.148
22 32.9
38
Oct
4
1.214
0.258
21 19.6
41
2I
8
1.010
-M).169
—22 44.3
—39
•+• 1
11
1.190
-M).245
—21 15.8
-4-42
-h 2
15
1.032
0.191
22 53.9
40
18
1.165
0.233
21 14.5
43
I
22
1.0.56
0.212
23 1.8
41
25
1.139
0.223
21 15.6
43
1
30
1.080
0 2.33
23 8.1
42
Not.
1
1.113
0.215
21 19 0
43
1
Jane
6
1.105
0.254
23 12.7
43
8
1.087
ojsm
21 24.8
42
1
13
1.131
-1-0.273
-23 15.6
—43
-h 2
15
1.063
-f-0.205
—21 32.8
-4-41
•+"^1
20
1.156
0.292
23 16.8
43
2
22
1.040
0.204
21 42.6
40
1 '
27
1.I8I
0.309
23 16.3
43
2
30
1.018
0.204
21 54.0
39
1
July
4
1.206
0.324
23 14.2
42
2
Dec.
7
0.997
0.206
22 6.8
38
1 1
11
1.228
0.336
23 10.3
40
2
14
0.978
0.209
22 20.7
36
1
18
1.249
-M).346
-23 4.8
—38
•+• 2
21
0.960
-M).214
-22 354
•4-34
+ 1!
25
1.267
-1-0.352
—22 57.7
—36
-h 2
28
0.944
-h0.220
—22 50.5
-HM
^'
SATI
;li
.IT
E II.
1
;
AT GEOCENTRIC SUPE-
ATTI
\IEOF
T
AT GEOCENTRIC SUPE-
AT TIME OF 1
Dftta,
1855.
RIOR CONJU
NCTION.
ECL
IPSE.
Dale,
1 855.
RIOR CONJUNCTION.
EtUPSE. 1
Fwtor
Factor
Factor
Factor
forx'.
fory.
P
X.
y-
(orx*.
fory'.
P
X.
»' 1
Feb.
28
0.873
-0.093
—19 17.3
n
—28
II
Aog.
4
1.285
-f-0167
O 1
-22 31.2
-3f
+ «j
March 8
0.880
0.081
19 44.7
31
11
1.294
0.165
22 20.7
31
.
15
0.889
0.068
20 104
34
18
1.298
0.160
22 9.2
—25
* 1
1
22
0.900
0.055
20 344
37
25
1.297
0.154
21 57.2
-h28
2 1
29
0.912
0.042
20 56.6
39
Sept.
1
1.291
0.145
21 45J
34
' April
5
0.926
—0.028
-21 17.0
—42
— 0
8
1.281
-f-0.135
—21 33.6
-»-39
-h «
)
12
0.941
—0014
21 35.7
44
— 0
15
1.267
0.125
21 23.0
44
19
0.958
-hOOOO
21 52.5
46
-h 0
22
1.248
0.114
21 13.8
48
26
0.976
0.015
22 74
48
0
30
1.228
0.104
21 64
51
May
3
0.996
0.030
22 20.6
51
0
Oct
7
1J205
0.094
21 1.2
54
11
1.017
4^.044—22 32.0
—53
-H 1
14
1.180
-f-0X)86
—20 684
-1-56
-h 1
18
1.040
0.059 22 41.6
55
1
21
1.154
0.078
20 58.1
57
25
1.064
0.0741 22 494
56
1
28
1.129
0.073
21 OJI
68
Jane
1
1.088
0.089 22 554
57
1
Not.
4
1.104
0.068
21 5.0
57
1
8
1.114
0.103
22 59.7
58
1
11
1.078
0.066
21 12X)
56
1
15
1.140
-♦-0.117
—23 2-3
—57
H- 1
18
1X)54
-h0065
—21 21.1
H-55
-h I
22
1.165
0.129
23 3.0
56
1
25
1.030
0.065
21 32.1
S3
1 ,
29
1.191
0.140
23 2.0
55
2
Dec.
2
1.009
0067
21 44.7
51
July
6
\^U
0.150
22 59.2
53
2
10
0.989
0.070
21 58.6
49
14
1.237
0.158
22 54.7
50
2
17
0.970
0.075
22 13.6
47
21
1.256|-M).l64
—22 484
—46
■4- 2
24
0.953
-f-0.080
-22 f9JS
-1-45
-f- 1
28
1.273
I-I-O.I67
—22 40.5
—42
■4- 2
81
0.937 !-M).087
—22 454
-M2
-H 1
JUPITER'S SATELLITES. 431
SATELLITE III. |
D.U,
1866.
AT GEOCENTRIC SUPERIOR CONJUNCTION.
AT TIME OF ECLIPSE.
Factor for s*.
Factor for y.
P-
Disappeannce.
Reappearance. ||
*.
y-
*.
y
March 3
0.875
—0.051
—19 37.8
H
—35
— 1
«
10
0.883
0.034
20 4.5
40
1
, ,
,,
17
0.893
0.018
20 29.5
45
0
24
0.904
—0.001
20 52.7
49
— 0
—17
— 6
31
0.917
-H).017
21 14.1
53
+ 0
20
+ 0
April 7
0.931
+0.035
—21 33.7
—57
+ 1
—24
+ 1
15
0.947
0.053
21 51^
61
1
28
1
22
0.964
0.071
22 7.4
65
1
31
1
29
0.983
0.090
22 2M
69
2
34
2
BfAj 6
1.004
0.109
22 33.7
72
2
36
2
13
1.026
-H).l28
-22 44.1
—75
+ 2
—38
+ 2
20
1.049
0.148
22 52.8
77
2
39
2
28
1.074
0.167
22 59.7
78
3
40
3
June 4
1.099
0.185 .
23 4.9
79
3
41
3
11
1.124
0.203
23 8.3
79
3
40
3
18
1.150
H-0.220
—23 9.9
—78
+ 4
—38
+ 4
25
1.176
0.236
23 9.8
76
4
35
4
July 2
1.200
0.2.^0
23 8.0
73
4
31
4
10
1.224
0.262
23 4.4
69
5
26
5
17
1.246
0.271
22 59.1
64
5
—19
+ 5
24
1.264
+0.277
—22 52.1
-57
+ 5
31
1.279
0.280
22 43.6
49
5
. ,
, ,
Aag;tist 7
1.290
0.280
22 33.7
40
5
, ,
14
1.296
0.276
22 22.7
31
5
21
1.298
0.270
22 11.1
—21
5
+25
•+•5
29
1.295
H-0.261
—21 59.1
• •
+-35
+ 5
Sept 5
1.287
0.249
21 47.3
, ,
,.
44
4
12
1.275
0.236
21 36.2
, ,
,,
52
4
19
1.258
0.223
21 26.2
, ,
„
60
4
26
1.239
0.209
21 17.9
+22
+ 8
66
3
Oct. 3
1.217
+0.197
—21 11.6
+28
+ 8
+70
+ 3
10
1.192
0.186
21 7.6
33
3
74
3
IS
1.166
0.175
21 6.0
36
3
77
3
25
1.140
0.166
21 7.0
39
3
78
3
Not. I
1.114
0.159
21 10.5
41
3
78
3
8
1X)89
+0.154
—21 16.3
+41
+ 3
+77
+ 3
15
1X)64
0.151
21 24.4
40
3
76
3
22
1.040
0.150
21 34.4
39
3
74
3
30
1.017
0.150
21 46.1
37
3
71
3
Dec 7
0.996
0.152
21 59.3
35
3
68
3
14
0.977
+0.156
—22 13.6
+32
+ 3
+65
+ 3
21
0.959
0.161
22 28.7
29
3
61
3
28
0.943
+0.168
—22 44.3
+25
+ 3
+57
+ 3
432 JUPITER'S SATELLITES.
SATELLITE IV.
1 855.
AT (ffiOOENTRIC SUPERIOR OONJUNGHON.
4T TUiK OP BCUPSE.
Factor for y.
FMJtorfory'.
P-
B^mppmruM, II
X.
y.
*.
y-
March 8
0.881
— 0X)48
—19 51.4
-5?
II
— 2
-2«
-1
25
0.905
— 0X)14
20 48.3
75
— 0
43
— 0
April 11
0.938
4-0.020
21 35.3
91
+ 1
58
+ 1
28
0.980
0X)56
22 12.0
106
2
71
2
Bfaj 15
1.080
0J09S
22 38.8
117
3
81
3
ai
1.086
+0.130
—22 55.7
-124
+ 4
— 85
+ 4
Jane 17
1.147
0.165
23 3.0
121
5
82
6
Jalj 4
1.205
0.194
23 0.6
112
6
69
6
^ 20
1.255
0.213
22 4^7
— 89
7
— 45
7
August 6
1.289
0.219
22 28.2
+ 66
7
••
"
23
1J»8
+0.210
—22 1^
+ 29
+ 7
Sept 8
1.281
0.189
21 34.2
+ 22
+ V
67
7
25
1.243
0.164
21 11.7
54
6
97
6
Oct 11
1.188
0.140
20 59.5
76
5
115
6
28
1.128
0.122
21 0.3
86
4
122
4
Not. U
1.069
+0.113
—21 15.0
+ 85
+ 4
+122
+ 4
Dec 1
1.014
0.112
21 40.5
78
4
111
4
17
0.968
+0.119
—22 13.6
+ 66
+ 4
+ 27
+ 4
coObdi
NATES IN THE MEAN APPARENT
BLLIP8
B, DESCRIBED B^
r THE
Si
LTELLITB, AND FOR THE MEAN
DI8TAI
^CE OF JUPITEB
FROM THE SUN, FOR THE TD
a (0 AFTER QEO-
CENTRIC SUPERIOR C<
3NJUNC1
noN.
S ATE LLI
TE
I.
(
7f
t
t
xi
y
t
xf
y
d. h.m.
n
u
d. h. m.
N
M
d. h. m.
t
u
0 0 0
4- 0.0
+ 6.6
0 5 20
+ 77.5
+ 4.7
0 10 40
+109.1
— 0.1
0 0 20
5.4
6.6
0 5 40
81.2
4.4
0 11 0
109.0
0.4 ,
0 0 40
10.8
6.6
0 6 0
84.7
4.2
0 11 20
108.6
0.7 1
0 1 0
16.1
6.6
0 6 20
88.0
3.9
0 U 40
107.9
\J0
0 1 20
21.4
6.5
0 6 40
91.1
3.7
0 12 0
106.9
i<s !
0 1 40
+ 26.6
4- 6.4
0 7 0
•I- 94.0
+ 3.4
0 12 20
+105.7
— 1.7 1
0 2 0
31.8
6.3
0 7 20
96.6
3.1
0 12 40
104J
2X)
0 2 20
36.9
6.2
0 7 40
99.0
2.8
0 13 0
102.5
2.3
0 2 40
42.0
6.1
0 8 0
lOl.l
2.5
0 13 20
100.5
2.6
0 8 0
46.9
6.0
0 8 20
103.0
2.2
0 13 40
98.3
2.9
0 3 20
-h 51.7
4- 5.8
0 8 40
+104.7
+ 1.2
0 14 0
+ 95J
— 3.2
0 3 40
56.4
5.7
0 9 0
106.1
1.6
0 14 20
93.1
S3
0 4 0
60.9
5.5
0 9 20
107.3
1.3
0 14 40
90.2
8.7
0 4 20
65.3
5.3
0 9 40
108.1
0.9
0 15 0
87.1
4.0
0 4 40
69J»
5.1
0 10 0
108.7
0.6
0 15 20
837
43
0 5 0
-f- 73.6
4- 4.9
0 10 20 ' +109.1
+ 0.3
0 15 40
+ 80.1
-43 -i
JUPITER'S SATELLITES. 433
1
COORDINATES IN THE MEAN APPARENT ELLIPSE.
SATELLITE
I.
t
x'
y
i
xf
y
t
xf
y
«'. II. in
II
jj
d. h. m.
II
II
d. b. ID.
H
It
0 16 0
4- 76.4
— 4.7
1 1 40
— 66.6
— 5.2
1 11 0
- 97.6
4- 3.0
0 16 20
72.5
5.0
1 2 0
70.8
6.0
1 11 20
95.1
3.3
0 16 40
68.4
5.2
1 2 20
74.8
4.8
1 11 40
92-3
3.5
0 17 0
64.1
5.4
1 2 40
78.6
4.6
1 12 0
89.3
3.8
0 17 20
59.6
5.5
1 3 0
82.2
4.4
1 12 20
86.1
4.1
0 17 40
4- 55.0
— 5.7
1 3 20
— 85.6
— 4.1
1 12 40
— 82.7
4-4.3
0 18 0
50.3
5.9
1 3 40
88.9
3.8
1 13 0
79.1
4.6
0 18 20
45.5
6.0
1 4 0
91.9
3.6
1 13 20
75.3
4.8
0 18 40
40.5
6.1
1 4 20
94.7
3.3
1 13 40
71.3
5.0
0 19 0
35.5
6.3
1 4 40
97.3
3.0
1 14 0
67.1
5.2
0 19 20
4- 30.4
— 6.4
1 5 0
— 99.6
— 2.7
1 14 20
— 62.8
4- 5.4
0 19 40
25.2
6.4
1 6 20
101.7
2.4
1 14 40
58.3
5.6
0 20 0
19.9
6.5
1 5 40
103.5
2.1
1 15 0
53.7
5.8
0 20 20
14.6
6.6
1 6 0
105.1
1.8
1 15 20
49.0
5.9
0 20 40
9.2
6.6
1 6 20
106.4
1.5
1 15 40
44.1
6.1
0 21 0
4- 3.8
— 6.6
1 6 40
—107.5
— 1.2
1 16 0
— 39.1
4- 6.2
0 21 20
— 1.5
6.6
1 7 0
108.3
0.8
1 16 20
34.0
6.3
0 21 40
6.9
6.6
1 7 20
108.8
0.5
1 16 40
28.9
6.4
0 22 0
12.3
6.6
1 7 40
109.1
— 0.2
1 17 0
23.7
6.5
0 22 20
17.6
6.5
1 8 0
109.1
4- 0.1
1 17 20
18.4
6.5
0 22 40
— 22.9
- 6.5
1 8 20
—108.9
4-0.5
1 17 40
— 13.0
4- 6.6
0 23 0
28.1
6.4
1 8 40
108.4
o.a
1 18 0
7.7
6.6
0 23 20
33.3
6.3
1 9 0
107.6
1.1
1 18 20
— 2.3
6.6
0 23 40
38.4
6.2
1 9 20
106.6
1.4
1 18 40
4- 3.1
6.6
1 0 0
43.4
6.1
1 9 40
105.3
1.8
1 19 0
8.5
6.6
1 0 20
— 48.3
— 5.9
1 10 0
—103.8
+ 2.1
1 19 20
4- 13.8
4- 6.6
1 0 40
53.1
5.8
1 10 20
102.0
2.4
1 19 40
19.1
6.5
1 1 0
57.7
5.6
1 10 40
— 99.9
4-2.7
1 20 0
4- 24.4
4- 6.5
1 1 20
— 62.2
— 5.4
S
4 T E L L I T
E I
I.
t
x'
y
t
x'
y'
t
x'
y
d. h. m.
If
If
d. h. m
ff
ff
d. h. m.
u
II
0 0 0
4- 0.0
4-12.2
0 10 40
4-122.9
4- 8.6
0 21 20
4-173.8
— 0.0
0 0 40
8.5
12.2
0 11 20
128.8
8.2
0 22 0
173.6
0.6
0 1 20
17.0
12.1
0 12 0
134.4
7.7
0 22 40
172.9
1.2
0 2 0
25.5
12.1
0 12 40
139.6
7.3
0 23 20
171.8
1.8
0 2 40
33.9
12.0
0 13 20
144.5
6.8
1 0 0
170.4
2.4
0 3 20
4- 42.2
4-U.8
0 14 0
4-1 49X)
4- 6.3
1 0 40
4-168.5
— 3.0
0 4 0
50.5
11.7
0 14 40
1.53.2
5.7
1 1 20
166.2
3.5
0 4 40
58.6
11.5
0 15 20
157.0
5.2
1 2 0
163.5
4.1
0 5 20
66.5
11.3
0 16 0
160.5
4.7
1 2 40
160.4
4.7
0 6 0
74.3
11.0
0 16 40
163.6
4.1
1 ^ 20
157.0
5.2
0 6 40
4- 81.9
4-10.8
0 17 20
4-166JJ
4- 3J5
1 4 0
4-153.2
— 5.8
0 7 20
89.4
10.5
0 18 0
168.6
3.0
1 4 40
149.0
6.3
0 8 0
96.6
10.1
0 18 40
170.5
2.4
1 5 20
144.4
6.8
0 8 40
103.6
9.8
0 19 20
171.9
1.8
16 0
139.5
7.3
0 9 20
110.3
9.4
0 20 0
172.9
1.2
1 6 40
134.2
7.7
0 10 0
4-116.7
4- 9.0
0 20 40
4-173.6
4- 0.6
1 7 20
4-128.6
— 8.2
55
434 JUPITER'S SATELLITES.
coObdinates in the mean appabent ellipse.
SATELLITE II.
d. h. m.
1 8 0
1 8 40
1 9 20
1 10 0
1 10 40
1 11 20
1 12 0
1 12 40
1 13 20
1 14 0
14 40
15 20
16 0
16 40
17 20
1 18 0
I 18 40
1 19 20
1 20 0
1 20 40
1 21 20
1 22 0 j
1 22 40
1 23 20
2 0 0
0 40
1 20
2 0
2 40
H- 122.7
116.5
110.1
103.4
96.4
H- 89.2
81.7
74.1
66.3
58.3
-h 50.2
42.0
•33.7
25.3
16.8
H- 8.3
— 0.2
8.8
17.3
25.7
— 34 1
42 4
50.6
58.7
66.7
— 74.5
82.1
89.5
— 96.7
y'
- 8.6
9.0
9.4
9.8
10.1
-10.5
10.8
11.0
11.3
11.5
-11.7
11.8
12.0
12.1
12.1
-12.2
12.2
12.2
12.1
12.1
-12.0
11.8
11.7
11.5
11.3
-U.O
10.7
10.4
-10.1
d. h. in
2 3 20
2 4 0
2 4 40
2 5 20
2 6 0
6 40
7 20
8 0
8 40
9 20
2 10 0
2 10 40
2 II 20
12 0
12 40
2 13 20
2 14 0
2 14 40
2 15 20
2 16 0
2 16 40
2 17 20
2 18 0
2 18 40
2 19 20
20 0
20 40
2 21 20
-103.7
110.4
116.8
123.0
128.9
-134.5
139.7
144.6
149.1
153.3
-157.1
160.6
163.7
166.4
168.6
-170.4
171.9
173.0
173.6
173.8
-173.6
172.9
171.8
170.3
168.4
-166.2
163.5
-160.4
9.8
9.4
9.0
8.6
8.2
7.7
7.2
6.7
6.2
5.7
5.2
46
4.1
3.5
2.9
2.3
1.8
1.2
0.6
0.0
0.6
1^
1.8
2.4
3.0
a.5
4.1
4.7
d- h. m
2 22 0
2 22 40
2 23 20
3 0 0
3 0 40
3 8 0
3 8 40
3 9 20
a 10 0
3 10 40
3 11 20
3 12 0
3 12 40
3 13 20
S 14 0
3 14 40
3 15 20
S 16 0
-156.9
153.0
148.8
144.2
139.3
-134.1
128.5
122.6
116.4
109.9
-103.1
96.1
88.9
81.5
73.9
- 66.1
58.1
50.0
41.8
33.5
- 25.1
16.6
- 8.1
- 0.4
9.0
h 17.5
26.0
h 34.4
-f. 5.2
5.8
6.3
6.8
7;j
-f. 7.8
8.2
8.6
9.0
9.4
•I- 9.8
10.1
10.5
10.8
11.0
-hll^
11.5
11.7 ,
11.8
12J0
+12.1
12.1
12.2
12^
12.2
-hl2.1
12.1
-hl2.0
SATELLITE IIL
■
t
x*
y'
t
x*
y
t
X*
^ 1
d. h. m.
ft
II
d. h. Ill
M 1 II
d. h. m.
II
u
0 0 0
-h 0.0
-1-17.4
0 21 20
-M94.7 -hl2.4
1 18 40
-1-277.2
-h 0.8
0 1 20
13.5
17.4
0 22 40
204.1 11.8
1 20 0
277.0
— 0.6 '
0 2 40
26.9
17.3
1 0 0
213.0 11. 1
1 21 20
276.2
13 1
0 4 0
40.3
17.2
I 1 20
221.4
10.5
1 22 40
274.7
8.3 1
0 5 20
53.6
17.1
1 2 40
229.3
9J6
8 0 0
272.6
3.8 .
1
0 6 40
-H 66.8
H-iei
1 4 0
-h236.6
•+• 9.1
2 1 20
-1-269.8
1
-4X)
0 8 0
79.8
16 7
1 5 20
243.3 8.3
8 2 40
266.4
4S 1
0 9 20
92.7
16.4
1 6 40
2493 7.6
8 4 0
262.3
5.6 1
0 10 40
105.3
16.1
1 8 0
255.1 1 6.8
8 5 20
257.6
6.4 !
0 12 0
117.6
15.8
1 9 20
260.0 6.0
8 6 40
252;!
7.8
0 13 20
-hi 29.7
-hi 5 4
1 10 40
-1-264.3 + 5.2
8 8 0
-1-846.4
-8.0
0 14 40
141.5
15.0
1 12 0
268.0 4.4
8 9 80
240.0
8.7 1
0 16 0
153.0
14.5
1 13 20
271.1 1 3.6
8 10 40
833.0
••* i
0 17 20
164.1
14.0
1 14 40
273.6 1 2.7
2 18 0
825.4
101 !
0 18 40
174.7
13.5
1 16 0
275.5 1.9
8 13 20
817 3
10.8 '
0 20 0
1 -1-184.9
-hi 3.0
1 17 20
-h276.7 1 -h l.l
2 14 40
+808.6
-.11.5 1
JUPITER'S SATELLITES. 436
1 COORDINATES IN THE MEAN APPARENT ELLIPSE.
1
SATELLITE III.
t
x'
y'
t
T*
y'
t
X'
y'
d. h. m.
II
It
d. h. m
II
II
d. h. in
II
II
2 16 0
-1-199.5
—12.1
4 6 40
—158.4
—14.3
5 20 0
—225.1
H- 6.8
2 17 20
189.9
12.7
4 8 0
169.3
13.8
5 21 20
249.5
7.6
2 18 40
179.9
13.3
4 9 20
179.8
13J5
5 22 40
243.3
8.3 '
2 20 0
169.4
13.8
4 10 40
189.9
12.7
6 0 0
236.6
9.1
2 21 20
158.5
14.3
4 12 0
199.5
12.1
6 1 20
299.3
9.8
2 22 40
-hl47.2
—14.8
4 13 20
—208.6
—11.5
6 2 40
—221.4
-1-10.5
3 0 0
135.6
1.5.2
4 14 40
217.3
10.8
6 4 0
213.0
11.1
3 1 20
123.7
15.6
4 16 0
225.5
10.1
6 5 20
204.1
11.8
3 2 40
111.5
16.0
4 17 20
233.1
9.4
6 6 40
194.7
12.4
3 4 0
99.0
16.3
4 18 40
240.1
8.7
6 8 0
184.9
13.0
3 5 20
-h 86.3
—16.6
4 20 0
—246.5
— 8.0
6 9 20
—174.7
-1-13.5
3 6 40
73.3
16.8
4 21 20
252.3
75
6 10 40
164.1
14.0
3 8 0
60.2
17.0
4 22 40
257.6
6.4
6 12 0
. 153.0
14.5
3 9 20
47.0
17.2
5 0 0
262.3
5.6
6 13 20
141.5
15.0
3 10 40
33.6
17.3
5 1 20
266.4
4.8
6 14 40
129.7
15.4
3 12 0
-h 20.2
—17.4
5 2 40
—269.8
— 4.0
6 16 0
—117.6
-1-15.8
3 13 20
-h 6.7
17.4
5 4 0
272.6
3.2
6 17 20
105.2
16.1
3 14 40
— 6.8
17.4
5 5 20
274.7
2.3
6 18 40
92.6
16.4
3 16 0
20.3
17.4
5 6 40
276.2
1.6
6 20 0
79.8
16.7
3 17 20
33.7
17.3
5 8 0
277.0
— 0.6
6 21 20
66.8
16.9
3 18 40
— 47.1
—17.2
5 9 20
—277.2
-4- 0.2
6 22 40
— 53.6
-hl7.1
3 20 0
60.3
17.0
5 10 40
276.7
1.1
7 0 0
40.3
17.2
3 21 20
73.4
16.8
5 12 0
275.5
1.9
7 1 20
26.9
17.3
3 22 40
86.3
16.6
5 13 20
273.7
2.7
7 2 40
— 13.4
17.4
4 0 0
99.0
16.3
5 14 40
271.2
3.6
7 4 0
-h 0.1
17.4
4 1 20
-111.5
—16.0
5 16 0
-268.1
-♦- 4.4
7 5 20
-h 13.6
-4-17.4
4 2 40
123.7
15.6
5 17 20
264.4
5.2
7 6 40
27.0
17.3
4 4 0
135.7
15.2
5 18 40
—260.1
-h 6.0
7 8 0
-4- 40.4
-4-17.2
4 5 20
—147.2
—14.8
S
ATELLITE I
V.
t
x'
}f
t
x'
y
t
x»
y
d. h.
II
n
d. h.
M
u
d h.
II
»
0 0
H- 0.0
-1-34.8
2 0
H-332.3
-|-25i5
4 0
-4-486.2
-h 2.5
0 3
22.8
34.8
2 3
348.6
24.3
4 3
487.3
-h 0.8
0 6
45.6
34.7
2 6
364.1
23.1
4 6
487.3
— 0.8
0 9
68.3
34.5
2 9
378.9
21.9
4 9
486.3
2.4
0 12
90.9
34.2
2 12
392.9
20.6
4 12
484.2
4.1
0 15
-4-113.2
-h33.9
2 15
-f-406.0
H-19.3
•4 15
-M80.9
— 5.7
0 18
135.3
33 5
2 18
418.2
17.9
4 18
476.6
7.3
0 21
157.1
33.0
2 21
429.5
16.5
4 21
471.3
8.9
1 0
178.5
32.4
3 0
439.8
15.0
5 0
465.0
10.4
1 3
199.6
31.8
3 3
449.1
13.5
5 S
457.7
12.0
1 6
H-220.3
-1-31.1
3 6
-M57.5
H-12.0
5 6
-1-449.3
—13.5
1 9
240.4
30.3
3 9
464.9
10.5
5 9
439.9
15.0
1 12
260.0
29.5
3 12
471.3
8.9
5 12
429.6
16.4
1 15
279.0
28.6
3 15
476.6
7.3
5 15
418.4
17.9
1 18
297.4
27.6
3 18
480.8
5.7
5 18
406.2
19.3
1 21
1
-1-315.2
-1-26.6
3 21
H-484.0
-1-4.1
5 21
-1-393.1
—20.6
436 JUPITER'S SATELLITES.
j=-= —
COORDINATES IN THE MEAN APPARENT ELLIPSE.
SATELLITE IV.
t
x*
y
t
x'
y*
t
x*
1
y 1
d
h
II
H
d.
h.
II
M
(1.
h.
It
* 1
6
0
-h379.2
—21.9
9
18
—240.1
—30.3
13
12
-457.6
H-120 1
6
3
364.4
23.1
9
21
259.7
29.5
13
15
449.3
13.5 1
6
6
348.8
24.3
10
0
278.7
28.6
13
18
440.0
15.0 1
6
9
332.5
25.5
10
3
297.2
27.6
13
21
429.7
16.4
6
12
315.4
26.6
10
6
315.0
26.6
14
0
418.5
17.8
6
15
-h297.6
—27.6
10
9
—332.1
—25.5
14
3
—406.3
-hl9.2
6
18
279.2
28.5
10
12
348.4
24.4
14
6
393.2
20.6
6
21
260.2
29.4
10
15
363.9
23.2
14
9
379.3
21.9
7
0
240.6
30.3
10
18
378.7
21.9
14
12
364.6
23.1
7
3
220.5
31.1
10
21
392.7
20.6
14
16
349.1
24.3
7
6
+199.9
—31.8
n
0
—405.8
-19.3
14
18
—332.8
H-25.4
7
9
178.8
32.4
11
3
4180
17.9
14
21
315.7
26.5
7
12
157.4
33.0
11
6
429J3
16.5
15
0
298.0
27.5
7
15
135.6
33 J5
u
9
439.6
150
15
3
279.6
28.5
7
18
113.5
33.9
11
12
449.0
13.5
15
6
260.5
29.4
7
21
H- 91.2
—34.2
11
15
—457.4
—12.0
15
9
—240.9
H-30J
8
0
68.7
34.5
11
18
464.8
10.5
15
12
220.8
31.1
8
3
46.0
34.7
n
21
471.2
8.9
15
15
200.2
31.8
8
6
23.2
34.8
12
0
476.5
7.3
15
18
179.2
32.4
8
9
-♦- 0.3
34.8
12
3
480.8
5.7
15
21
157.7
33.0
8
12
— 22Ji
-34.8
12
6
—484.0
— 4.1
16
0
—135.9
H-33.5
8
15
45.3
34.7
12
9
486.2
2.5
16
3
113.8
33.9
8
18
68.0
34Ji
12
12
487.3
— 0.8
16
6
91.5
34.2
8
21
90.5
34.2
12
15
487.3
-4- 0.8
16
9
69.0
34.5
9
0
112.9
33.9
12
18
486.3
2A
16
12
46.3
34.7
9
3
—135.0
— 33J5
12
21
—484.2
H- 4.0
16
15
— 23.5
-H34J
9
6
156.8
3SJ0
13
0
480.9
5.7
16
18
— 0.6
34.8
9
9
178.2
32.4
13
3
476.6
7.3
16
21
H- 22.2
34J
9
12
199.3
31.8
13
6
471.3
8.9
17
0
H- 45X)
-h34.7
9
15
-220.0
—31.1
13
9
—465.0
H-10J5
1
J
=r. =,
SATURN'S RING, 1855. 437
THE APPARENT ELEMENTS OF SATURN'S RING.
Inclination of
/
r
u u'
Sideraal
Date.
Oh.
a
b
Northern
The Elevation
The Elevation
Earth'e Longitu.le from Saturn
Outer
Outer
Semiminor
of the Earth
of the Sun
counted on Plane of Ring
Major
Minor
Axlt to Circle
above tlie
above the
from llie Blnir's Aecend-
Axis.
Axis.
of Declination
Plane of the
Plane of the
ing .Node on
from North
Ring.
Ring.
toEaat.
Equator.
Ecliptic.
0
45*.94
20.28
-4 2li.6
O 1
—26 11.6
—26 32.2
O 1
125 9.1
82 4^.0
30
44.76
19.75
4 15.8
26 11.0
26 35.2
124 8.4
80 42.4
40
43.27
19.13
4 13.3
26 14.3
26 37.9
123 44.5
80 18.6
60
41.70
18.51
4 16.3
26 21.2
26 40.4
124 10.3
80 44.4
80
40.25
17.96
4 24.6
26 30.5
26 42.5
125 23.0
81 67.2
100
39.04
17.52
4 37.3
26 40.5
26 44.3
127 15.4
83 49.7
120
38.14
17.21
4 52.8
26 49.1
26 45.9
129 37.7
86 12.1
140
37.59
17.01
5 9.9
26 54.5
26 47.1
132 20.3
88 54.8
160
37.38
16.93
5 23.2
26 56.1
26 48.1
135 13.1
91 47.6
180
37.53
16.97
5 43.7
26 53.1
26 48.8
138 6.6
94 41.2
200
38.03
17.13
5 58.5
26 46.4
26 49.1
140 51.3
97 26.0
220
38.87
17.41
6 10.8
26 37.0
26 49.2
143 17.7
99 52.5
240
40.03
17.83
6 20.3
26 27.0
26 49.0
145 16.4
101 51.3
260
41.44
18.37
6 26.4
26 18.7
26 48.4
146 38.7
103 13.6
280
1
43.00
19.01
6 29.2
26 13.8
26 47.7
147 16.4
103 51.4
300
44.52
19.69
6 28.4
26 14.2
26 46.5
147 5.7
103 40.8
320
45.79
20.33
6 24.2
26 20.5
26 45.1
146 10.2
102 45.4
340
46.67
20.76
6 17.0
26 28.3
26 43.4
144 35.3
101 10.6
350
46.64
20.92
6 8.3
26 38.3
26 41.4
142 46.7
99 22.1
365
46.56
20.91
—6 6.0
—26 40.8
—26 40.3
142 19.9
98 55.4
Fw
$tor which is to be multiplied by a and 6 to obtain the axec
lOf
The inner ellipse ofthe outer Ring =0.8841 by I
i'actor -= 9.9465
The outer ellipse of the inner Ring = 0.8468
" = 9.9278
The inner ellipse of the inner Ring «= 0.6518
" = 9.8141
The outer ellipse of Bond's dusky Ring = 0.6187
«* = 9.7915
The inner ellipse of Bond's dusky Ring = 0.5855
" = 9.7675
Nora. — The aign of/ indlcatea whether the riaiUe lurlace of the Ring k
northern or aouthem.
THE APPARENT DISCS OF VENUS ANE
) MARS.
The
Tened Sines of their mnminated Porttons, diirided by thei
r Apparent Diameters.
1866.
Venue.
Mara.
1855.
Yeaue. Mars.
Janus
iry 15
0.991
0.987
July 15
0.531 0.982
Febn
lary 15
0.968
0.994
August 15
0.343 0.969
Marc
h 15
0.929
0.999
September 15
0.078 0.952
April
15
0.865
1.000
October 15
0.066 0.934
May
15
0.780
0.998
November 15
0.330 0.917
Jane
15
0.667
0.992
December 15
0.521
0.905
439 MEAN SOLAR into Sidereal Time.
Argaroent: Mean Solar howr$ at top; Mean Solar minutm at tide.
Mean
Solar.
Qh.
lb.
2h.
3»^
4h.
5»»-
6"-
7h,
For
Seconds.
""^
m. 1.
m. t.
in. •.
m ■
0
0 00.000
O' 09.856
0 19.713
0 29.569
0 39.426
0 49^82
0 59.139
1 08.995
t
•.
1
0 00.164
0
10.021
0 19.877
0 29.734
0 39.590
0 49.447
0 59.3a3
1 09160
1
0.003
2
0 00.329
0
10.185
0 20.041
0 29.898
0 39.754
0 49.611
0 59467
1.09.324
2
.005
3
0 00 493
0
10.349
0 20.206
0 30.062
0 39.919
0 49.775
0 59.632
1 09488
3
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4
0 00.657
0
10.514
0 20.370
0 30.227
0 40.083
0 49.939
0 59.796
1 09.652
4
JOU '
5
0 00.821
0
10.678
0 20.534
0 30.391
0 40.247
0 50.104
0 59.960
1 09.817
5
.014 '
6
0 00.986
0
10.842
0 20.699
0 30.555
0 40.412
0 50.268
1 00.124
1 09.981
6
ms
7
0 01.1. >0
0
11.006
0 20.863
0 30.719
0 40.576
0 50.432
1 00.289
1 10.145
7
.019
8
0 01.314
0
11.171
0 21.027
0 30.884
0 40.740
0 50.597
1 00453
1 10.310
8
xy22
9
0 01.478
0
11.335
0 21.191
0 31.048
0 40.904
0 50 761
1 00.617
1 10474
9
.025 i
10
0 01.643
0
11.499
0 21.356
0 31.212
0 41.069
0 50.925
1 00.782
1 10.638
10
.027 =
11
0 01.807
0
11.663
0 21.520
0 31.376
0 41.233
0 51.089
1 00.946
1 10.802
It
xm 1
12
0 01.971
0
11.828
0 21.684
0 31.541
0 41.397
0 51.254
1 01.110
1 10.967
12
.033 '
13
0 02.136
0
11.992
0 21.849
0 31.705
0 41.561
0 51.418
1 01.274
1 11.131
13
i)36
14
0 02.300
0
12.156
0 22.013
0 31.869
0 41.726
0 51.582
1 01439
1 11.295
14
^8
15
0 02.464
0
12.321
0 22.177
0 32.034
0 41.890
0 51.746
1 01.603
1 11.459
15
.041 '
16
0 02.628
0
12.485
0 22.341
0 32.198
0 42.054
0 51.911
1 01.767
1 11.624
16
.044
17
0 02.793
0
12.649
0 22.506
0 32.362
0 42.219
0 52.075
1 01.932
1 11.788
17
.047
18
0 02.957
0
12.813
0 22.670
0 32..526
0 42.3a3
0 52.239
1 02.096
1 11.952
18
.049
19
0 03.121
0
12.978
0 22.834
0 32.691
0 42.547
0 52.404
1 02.260
1 12.117
19
.052
20
0 03.285
0
13.142
0 22.998
0 32 855
0 42.711
0 52.568
1 02424
1 12.28!
20
.055
21
0 03.450
0
13.306
0 23.163
0 33.019
0 42.876
0 52.732
1 02.589
1 12445
21
.057
22
0 03.614
0
13.471
0 23.327
0 33.183
0 43.040
0 52.896
1 02.753
1 12.609
22
/)60
23
0 03.778
0
13.635
0 23.491
0 33.348
0 43.204
0 53.061
1 02.917
1 12.774
23
.063
24
0 03.943
0
13.799
0 23.656
0 33.512
0 43.368
0 53.225
i 03.081
1 12.938
24
M6
25
0 04.107
0
13.963
0 23.820
0 33.676
0 43.533
0 53 389
1 03J246
1 13.102
25
.068
26
0 04.271
0
14.128
0 23.984
0 33.841
0 43.697
0 53.554
1 03410
1 ia266
26
.071
27
0 04.435
0
14.292
0 24.148
0 34.005
0 43.861
0 53.718
1 03.574
1 13431
27
.074
28
0 04.600
0
14.456
0 24.313
0 34.169
0 44.026
0 53.882
1 03.739
1 13.595
28
i)77
29
0 04.764
0
14.620
0 24477
0 34.333
0 44.190
0 54.046
1 03.903
1 13.759
29
.079
30
0 04.928
a 14.785
0 24.641
0 34.498
0 44.354
0 54.211
1 04.067
I 13.924
30
.082
31
0 05.093
0
14.949
0 24.805
0 34.662
0 44.518
0 54.375
1 04.231
1 14.088
31
.085
32
0 05.257
0
15.113
0 24.970
0 34.826
0 44.683
0 54.539
1 04.396
1 14.252
32
X)88 1
33
0 0.5.421
0
15.278
0 25.134
0 34.990
0 44.847
0 54.7a3
1 04.560
1 144!6
33
.090;
34
0 05.583
0
15.442
0 25.298
0 35.155
0 45.011
0 54.868
1 04.724
I 14.581
34
.093
35
0 05.750
0
1 5.606
0 25.463
0 35.319
0 45.176
0 55.032
1 04.888
1 14.745
35
xm
36
0 0.5.9 U
0
15.770
0 25.627
0 35.483
0 45.340
0 55.196
1 05.053
1 14.909
36
.099.
37
0 06.078
0
15.935
0 25.791
0 35 648
0 45.504
0 55.361
1 05.217
1 15.073
37
.101
38
0 00.242
0
16.099
0 25.955
0 35.812
0 45.668
0 55.525
1 05.381
1 15.238
38
.104 1
39
0 06.407
0
16.263
0 26.120
0 35.976
0 45.833
0 55.689
1 05.546
1 15402
39
.107 1
1
40
0 06.571
0
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0 26.284
0 36.140
0 45.997
0 55.853
1 05.710
1 15.566
40
.no'
41
0 06.735
0
16.592
0 26.448
0 36.305
0 46.161
0 56.018
1 05.874
1 15.731
41
.112
42
0 06.900
0
16.756
0 26.612
0 36.469
0 46.325
0 56.182
1 06.a38
I 15.895
42
.115 I
43
0 07.064
0
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0 20.777
0 36.6.33
0 46.490
0 56 346
1 06.203
1 16.059
43
.118
44
0 07.228
0
17.085
0 26.941
0 36.798
0 46.654
0 56.510
1 06.367
1 16Jt23
44
.120,
45
0 07.392
0 17.249
0 27.105
0 36.962
0 46.818
0 56 675
1 06.531
I 16-388
45
.123;
46
0 07..557
0
17.413
0 27.270
0 37.120
0 46.983
0 50.839
1 06.695
1 16.552
46
.126.
47
0 07.72!
0
17.577
0 27.434
0 37.291)
0 47.147
0 57.003
1 00.860
1 16.716
47
.129
48
0 07.885
0
17.742
0 27.598
0 37.455
0 47.311
0 57.168
1 07.024
1 16.881
48
.131
49
0 08.049
0
17.906
0 27.762
0 37.619
0 47.475
0 57.332
1 07.188
1 17.045
49
.134 ,
50
0 08.214
0
18.070
0 27.927
0 37.7a3
0 47.640
0 57.496
1 07.353
I 17.209
50
.137 1
51
0 08.378
0
18.234
0 28.091
0 37.947
0 47.804
0 57.660
1 07.517
1 17.373
51
.140
53
0 08.542
0
18399
0 28.255
0 38.112
0 47.968
0 57.825
I 07.681
1 17.538
52
.142
51
0 08.707
0
18.563
0 28.420
0 38.276
0 48.1.32
0 57.989
I 07.845
1 17.702
53
.145 '
5*
0 08.871
0
18.727
0 28.584
0 38.440
0 48.297
0 58,153
1 06.010
1 17.866
54
.149
55
0 09.035
0
18.892
0 28.748
0 38.605
0 48.461
0 58.317
I 08.174
1 I8.a30
55
.151
1 56
0 09.199
0
19.056
0 28.912
0 38.769
0 48.625
0 58.482
I 08.^38
1 18.195
56
.153
57
0 09.364
0
19.220
0 29.077
0 38.933
0 48.790
0 58.646
I 08.502
1 18.359
57
.156 '
58
0 09.528
0
19.384
0 29.241
0 39.097
0 48.9.54
0 58.810
1 08.667
1 18,523
58
159
59
0 09.692
0
19.549
0 29.405
0 39.262
0 49.118
0 58.975
I 08.831
1 18.688
69
.162
MEAN SOLAR into Sidereal Time. ^439
Aigument : Mean Solar hours at top ; Mean Solar minutes at side.
i.Meaii
Solar.
8*^
9^
10»^
IP
12*^
13 »^
14h.
15*^
For II
Secondi
in.
0
"'18.852
"'28.708
m. a.
1 38.565
"48.421
"58.278
2 08.134
m a.
2 17.991
m. t.
2 27.847
a.
' .
1
1 19.016
1 28.873
1 38.729
1 48.585
1 58.442 2 08.298
2 18.155
2 28.011
i;0.003||
2
1 19.180
1 29.037
1 38.893
1 48.750
1 58.606
2 08.463
2 18.319
2 28.176
2
.005
3
1 19.345
1 29J201
1 39.058
1 48.914
1 58.771
2 08.627
2 18.483
2 28.340
3
.008
4
1 19.509
1 29.365
1 39.222
1 49.078
1 58.935
2 08.791
2 18.648
2 28.504
4
.011
5
1 19.673
1 29.530
1 39.386
1 49.243
1 59.099
2 08.956
2 18.812
2 28.668
5
.014
6
1 19.837
1 29.694
1 39.550
1 49.407
1 59.263
2 09.120
2 18.976
2 28.833
6
.016
7
1 20.002
1 29.858
1 39.715
I 49.571
1 59.428
2 09.284
2 19.141
2 28.997
7
.019
8
1 20.166
1 30.022
1 39.879
I 49.735
1 59.592
2 09.448
2 19JJ05
2 29.161
8
.022
9
1 20^0
1 80.187
1 40.043
1 49.900
1 59.756
2 09.613
2 19.469
2 29.326
9
.025
10
1 20.495
1 80.351
1 40.207
1 50.064
1 59.920
2 09.777
2 19.633
2 29.490
10
.027
11
1 20 659
1 30.515
1 40.372
1 50.228
2 00.085
2 09.941
2 19.798
2 29.654
11
.030
12
1 20.823
1 30.680
1 40.536
1 50.393
2 00.249
2 10.105
2 19.962
2 29.818
12
.033
13
1 20.987
1 30.844
1 40.700
1 50.557
2 00.413
2 10.270
2 20.126
2 29.983
13
.036
14
1 21.152
1 81.008
1 40.865
I 50.721
2 00.578
2 10.434
2 20.290
2 30.147
14
.038
15
1 21.316
1 31.172
1 41.029
1 50.885
2 00.742
2 10.598
2 20.455
2 30.311
15
.041
16
1 21.480
1 31.337
1 41.193
1 51.050
2 00.906
2 10.763
2 20.619
2 30.476
16
.044
17
1 21.644
1 31.501
1 41.357
1 51.214
2 01.070
2 10.927
2 20.783
2 30.640
17
.047
18
1 21.809
1 31.665
1 41.522
1 51.378
2 01.235
2 11.091
2 20.948
2 30.804
18
.049
19
1 21.973
1 81.829
1 41.686
1 51.542
2 01.399
2 11.255
2 21.112
2 30.968
19
.052
20
1 22.137
1 81.994
1 41.850
1 51.707
2 01.563
2 11.420
2 21.276
2 31.133
20
.055
21
1 22.302
1 32.158
1 42.015
1 51.871
2 01.727
2 11.584
2 21.440
2 31.297
21
.057
22
1 22.466
1 32.322
1 42.179
1 52.035
2 01.892
2 11.748
2 21.605
2 31.461
22
.060
23
1 22.630
1 32.487
1 42.343
1 52.200
2 02.056
2 11.912
2 21.769
2 31.625
2,3
.063
24
1 22.794
1 32.651
1 42.507
1 52.364
2 02.220
2 12.077
2 21.933
2 31.790
24
.066
25
1 22.959
1 32.815
1 42.672
I 52.528
2 02.385
2 12.241
2 22.098
2 31.954
25
.068
26
1 23.123
1 32.979
1 42.836
1 52.692
2 02.549
2 12.405
2 22.262
2 32.118
26
mi
27
1 23.287
1 33.144
1 43000
1 52.857
2 02.713
2 12.570
2 22.42;
2 32.283
27
.074
28
1 23.451
1 33.308
1 43.164
1 53.021
2 02.877
2 12.734
2 22.590
2 32.447
28
.077
29
1 23.616
1 33.472
1 43.329
1 53.185
2 03.042
2 12.898
2 22.755
2 32.611
29
.079
30
1 23.780
1 33.637
1 43.493
1 53.349
2 03.206
2 13.062
2 22.919
2 32.775
30
.082
31
1 23.944
1 33.801
1 43.657
1 53.514
2 03.370
2 13.227
2 23.083
2 32.940
31
.085
32
I 24.109
1 33.965
1 43.822
1 53.678
2 03.534
2 13.391
2 23.247
2 33.104
32
.088
33
1 24.273
1 84.129
1 43.986
1 53.842
2 03.699
2 13.555
2 23.412
2 33.268
33
.090
34
1 24.437
1 34.294
1 44.150
1 54.007
2 03.863
2 13.720
2 23.576
2 33.432
34
.093
35
1 24.601
1 84.458
1 44.314
1 54.171
2 04.027
2 13.884
2 23.740
2 33.597
35
.096
36
1 24.766
1 34.622
I 44.479
1 54.335
2 04.192
2 14.048
2 23.905
2 33.761
36
.099
37
1 24.930
1 84.786
1 44.643
1 54.499
2 04J356
2 14.212
2 24.069
2 33.925
37
.101
38
1 25.094
1 34.951
1 44.807
1 54.664
2 04.520
2 14.377
2 24.233
2 34.090
38
.104
39
1 25.259
1 85.115
1 44.971
1 54.828
2 04.684
2 14.541
2 24.397
2 34.254
39
.107
40
1 25.423
1 35.279
1 45.136
1 54.992
2 04.849
2 14.705
2 24.562
2 34.418
40
.110
41
1 25.587
1 35.444
1 45.300
1 55.156
2 05.013
2 14.869
2 24.726
2 34.582
41
.112
42
1 25.751
1 35^608
1 45.464
1 55.321
2 05.177
2 15.a34
2 24.890
2 34.747
42
.115
43
1 25.916
1 35.772
1 45.629
1 55.485
2 05.342
2 15.198
2 25.054
2 34.911
43
.118
44
1 26.080
1 35.936
1 45.793
1 55.649
2 05.506
2 15.362
2 25.219
2 35.075
44
.120
45
1 26.244
1 36.101
1 45.957
1 55.814
2 05.670
2 15.527
2 25.383
2 35.239
45
.123
46
1 26.408
1 36.265
1 46.121
1 55 978
2 05.834
2 15.691
2 25.547
2 35.404
46
.126
47
1 26.573
1 36.429
1 46.286
1 56.142
2 05.999
2 15.855
2 25.712
2 35.568
47
.129
48
1 26.737
1 36.593
1 46.450
1 56.306
2 06.163
2 16.019
2 25.876
2 35.732
48
.131
49
1 26.901
1 36.758
1 46.614
1 56.471
2 06 327
2 16.184
2 26.040
2 35.897
49
.134
50
1 27.066
1 36.922
1 46.778
1 56 635
2 06.491
2 16.348
2 26.204
2 36.061
50
.137
51
1 27 230
1 37.086
1 46.943
1 56.799
2 06.656
2 16.512
2 26.369
2 36.225
51
.140
52
1 27.394
1 37.251
1 47.107
1 56.964
2 06.820
2 16.676
2 26.533
2 36.389
52
.142
53
1 27.558! 1 37415
1 47.271
1 57.128
2 06.984
2 16.841
2 26.697! 2 36.554
53
.145
54
1 27.723
1 37.579
1 47.436
1 57.292
2 07.149
2 17.005; 2 26.861^ 2 36.718
54
.148
55
1 27.887
1 37.743
1 47.600
1 57.456
2 07.313
2 17.169
2 27.026 2 36.882
55
.151
56
1 28 051
1 37.908
1 47.764
1 57.621
2 07.477
2 17.334
2 27.190
2 37.047
56
1 .153
57
1 28 215
1 38.072
1 47.928
1 57.785
2 07.641
2 17.498
2 27.3.54
2 37.211
57
1 .1.56
58
1 28.380
1 38.236
1 48.093
1 57.949
2 07.806
2 17.662
2 27.519
2 37.375
58
, .159
59
1 28.544
1 38^00
1 48.257
1 58.1131 2 07.970
2 17.826
2 27.683
2 37.539
59
.162
440 MEAN SOLAR into Sidereal Time.
Arg:ament: Mecm Solar hours at top; Mean Solar minutet at tide.
Maw
SoUr.
le"^
17*^
is*^-
19»^
20 »»
21 »»
22»»-
23 »»
For
Seconds.
n. t.
n. •.
ra. t.
m. t.
m. •.
m. t.
m. t.
m. ■
0
2 37.704
2*47.560
2 67.417
3 07.273
3 17.129
3 26.986
3 36.842
3 46.699
■.
■.
1
2 37.868
2 47.724
2 57.581
3 07437
3 17.294
3 27.150
3 37/)07
3 46.863
1
0.003
2
2 38.032
2 47.889
2 57.745
3 07.602
3 17.458
3 27.315
3 37.171
3 47.027
2
XiOb
3
2 38.196
2 48.053
2 57.909
3 07.766
3 17.622
3 27479
3 37.335
3 47.192
3
.008 1
4
2 38.361
2 48.217
2 58.074
3 07.930
3 17.787
3 27.643
3 37.500
3 47.356
4
m\
5
2 38.525
2 48.381
2 58.238
3 08.094
3 17.951
3 27.807
3 37.664
3 47.520
5
.014 '
6
2 38.689
2 48.546
2 58.402
3 08.259
3 18.115
3 27.972
3 37.828
3 47.685
6
X)16
7
2 38.854
2 48.710
2 58.566
3 08.423
3 18.279
3 28.136
3 37.992
3 47.849
7
.019 '
8
2 39.018
2 48.874
2 58.731
3 08.587
3 18.444
3 28.300
3 38.157
3 48.013
8
X)22
9
2 39.182
2 49.039
2 58.895
3 08.751
3 18.608
3 28464
3 38.321
3 48.177
9
.025
10
2 39.346
2 49.203
2 59.059
3 08.916
3 18.772
3 28.629
3 38.485
3 48.542
10
mi
11
2 39.51 1
2 49.367
2 59.224
3 09.080
3 18.937
3 28.793
3 38.649
3 48JM>6
11
.030
12
2 39.675
2 49.531
2 59.388
3 09.244
3 19.101
3 28.957
3 38.814
3 48.670
12
.033
13
2 39.839
2 49.696
2 59.552
3 09.409
3 19.265
3 29.122
3 38.978
3 48.834
13
X)36
14
2 40.003
2 49.860
2 59.716
3 09.573
3 19.429
3 29.286
3 39.142
3 48.999
14
i)38,
15
2 40.168
2 50.024
2 59.881
3 09.737
3 19.594
3 29450
3 39.307
3 49.163
15
UMl
16
2 40.332
2 50.188
3 00.045
3 09.901
3 19.758
3 29.614
3 39471
3 49.327
16
.044
17
2 40.496
2 50.353
3 00.209
3 10.066
3 19.922
3 29.779
3 39.635
3 49492
17
.047
18
2 40.661
2 50.517
3 00.373
3 10.230
3 20.086
3 29.943
3 39.799
3 49.656
18
X>49
19
2 40.825
2 50.681
3 00.538
3 10.394
3 20.251
3 30.107
3 39.964
3 49.820
19
.052
20
2 40.989
2 50.846
3 00.702
3 10.559
3 20.415
3 30.271
3 40.128
3 49.984
20
.055
21
2 41.153
2 51.010
3 00.866
3 10.723
3 20.579
3 30.436
3 40.292
3 50.149
21
.057 '
22
2 41.318
2 51.174
3 01.031
3 10.887
3 20.744
3 30.600
3 40456
3 50.313
22
J)60
23
2 41482
2 51.338
3 01.195
3 11.051
3 20.908
3 30.764
3 40.621
3 50477
23
.063
24
2 41.646
2 51.503
3 01.359
3 11.216
3 21.072
3 30.929
3 40.785
3 5a642
24
i)66
25
2 41.810
2 51.667
3 01.523
3 11.380
3 21.236
3 31.093
3 40.949
3 50.806
25
.068
26
2 41.975
2 51.831
3 01.688
3 11344
3 21.401
3 31.257
3 41.114
3 50.970
26
.071
27
2 42.139
2 51.995
3 01.852
3 11.708
3 21.565
3 31.421
3 41.278
3 51.134
27
j074
28
2 42.303
2 52.160
3 02.016
3 11.873
3 21.729
3 31.586
3 41442
3 51.299
28
.077
29
2 42.468
2 52.324
3 02.181
3 12.037
3 21.893
3 31.750
3 41.606
3 51463
29
.079 ,
30
2 42.632
2 52.488
3 02.345
3 12.201
3 22.058
3 31.914
3 41.771
3 51.627
30
.082!
31
2 42.796
2 52.653
3 02.509
3 12.366
3 22.222
3 32.078
3 41.935
3 51.791
31
X>85
32
2 42.960
2 52.817
3 02.673
3 12.530
3 22.386
3 32.243
3 42.099
3 51.956
32
i)88
33
2 43.125
2 52.981
3 02.838
3 12.694
3 22.551
3 32 407
3 42.264
3 52.120
33
.090 ,
34
2 43.289
2 53.145
3 03.002
3 12.858
3 22.715
3 32.571
3 42428
3 52.284
34
X>93 ,
35
2 43.453
2 53.310
3 03.166
3 13.023
3 22J79
3 32.736
3 42.592
3 52.449
35
.096
36
2 43.617
2 53.474
3 03.330
3 13.187
3 23.043
3 32.900
3 42.756
3 52.613
36
.099
37
2 43.782
2 53.638
3 03.495 3 13.351
3 23.208
3 33.064
3 42.921
3 52.777
37
.101 :
38
2 43.946
2 53.803
3 03.659! 3 13.515
3 23.372
3 33.228
3 43.085
3 52.941
38
.104
39
2 44.110
2 53.967
3 03.823. 3 13.680
3 23.536
3 33.393
3 43^149
3 53.106
39
.107
40
2 44.275
2 54.131
3 03.9881 3 13.844
3 23.700
3 33.557
3 43.413
3 58.270
40
,110 ,
41
2 44.439
2 54.295
3 04.152; 3 14.008
3 23.865
3 33.721
3 43.578
3 53434
41
.112
42
2 44.603
2 54.460
3 04.316 3 14.173
3 24.029
3 33.886
3 43.742
3 53.598
42
.115
43
2 44.767
2 54.624
3 04.480 3 14.337
3 24.193
3 34.050
3 43.906
3 53.763
43
.118
44
2 44.932
2 54.788
3 04.645 3 14.501
3 24.358
3 34.214
3 44.071
3 53.927
44
.120
45
2 45.096
2 54.952
3 04.809 3 14.665
3 24.522
3 34 378
3 44.235
3 54.091
45
.123
46
2 45.260
2 55.117
3 04.973 3 14.8.30
3 24.686
3 34.543
3 44.399
3 54.256
46
.126
47
2 45.425
2 55.281
3 05.1371 3 14.994
3 24.850
3 34.707
3 44.563
3 54420
47
.129
48
2 45.589
2 55.445
3 05.302 3 15.158
3 25.015
3 34.871
3 44.728
3 54.584
48
.131
49
2 45.753
2 55.610
3 05.466! 3 15.322
3 25.179
3 35X>35
3 44J92
3 54.748
49
.134
50
2 45.917
2 55.774
3 05.630 3 15.487
3 25JI43
3 35400
3 45.056
3 54.913
50
.137
51
2 46.082 2 55.938
3 05.795 3 15.651
3 25.508
3 35-364
3 45.220
3 55.077
51
.140
52
2 46.2461 2 56 102
3 05.959 3 15.815
3 25.672
3 35.528
3 45JJ85
3 55.241
52
.142
53
2 46.410, 2 56.267
3 06.123
3 15.980
3 25.836
3 35.693
3 45.549
3 55.405
53
.145
54
2 46.574
2 56.431
3 06.287
3 16.144
3 26.000
3 35.857
3 45.713
3 55.570
54
.148 1
55
2 46.739
2 56.595
3 06.452 3 16.308
3 26.165
3 36X)21
3 45.878
3 55.734
55
.151 1
56
2 46.903
2 56.759
3 06.616 3 16.472
3 26J329
3 36.185
3 46.042
3 55.898
56
.153
57
2 47.067
2 56.924
3 06.780, 3 16.637
3 26.493
3 36.350
3 46.206
3 56.063
57
.156
58
2 47.232
2 57.088 3 06.9441 3 16.801
3 26.657
3 36.514; 3 46.370
3 56 227
58
159
1 59
2 47.396
2 57.252 3 07.109,3 16.965*3 26.822
3 36.678 3 46.535
3 56.391
59
.162
SIDEREAL iito Hen Solar Time. 44tl
Argument: Sidenal houn at top ; Sidereal minutM at side.
Side-
real
0»^
Ih.
2h.
3»^
4h.
5^'
6»^
7h.
For
Sbcooda.
0
0 00.000
0*09.830
on. a.
0 19.659
O' 29489
O' 39.318
0 49.148
0*58.977
l' 08.807
a.
t.
1
0 00.164
0 09.993
0 19.823
0 29.653
0 39482
0 49.312
0 59.141
1 08.971
1
0.003
2
0 00.328
0 10.157
0 19.987
0 29.816
0 39.646
0 49475
0 59.305
1 09.135
2
.005
3
0 00.491
0 10.321
0 20.151
0 29.980
0 39.810
0 49.639
0 59469
1 09.298
3
.008
4
0 00.655
0 10485
0 20.314
0 30.144
0 39.974
0 49.803
0 59.633
1 09462
4
.011
5
0 00.819
0 10.649
0 20478
0 30.308
0 40.137
0 49.967
0 59.796
1 09.626
5
.014
6
0 00.983
0 10.813
0 20.642
0 30472
0 40.301
0 50.131
0 59.960
1 09.790
6
.016
7
0 01.147
0 10.976
0 20.806
0 30.635
0 40465
0 50.295
1 00.124
1 09.954
7
.019
8
0 0\J3U
0 11.140
0 20.970
0 30.799
0 40.629
0 50458
1 00.288
1 10.118
8
.022
9
0 01.474
0 11.304
0 21.134
0 30.963
0 40.793
0 50.622
1 00452
1 10.281
9
.025
10
0 01.638
0 11.468
0 21.297
0 31.127
0 40.956
0 50.786
1 00.616
1 10.445
10
.027
U
0 01.802
0 11.632
0 21.461
0 31.291
0 41.120
0 50.950
1 00.779
1 10.609
11
J030
12
0 01.966
0 11.795
0 21.625
0 31.455
0 41.284
0 51.114
1 00.943
1 10.773
12
.033
13
0 02.130
0 11.959
0 21.789
0 31.618
0 41.448
0 51.278
1 01.107
1 10.937
13
.035
14
0 02.294
0 12.123
0 21.953
0 31.782
0 41.612
0 51.441
1 0\J27l
1 11.100
14
.038
15
0 02457
0 12.287
0 22.117
0 31.946
0 41.776
0 51.605
1 01.435
1 11.264
15
.041
16
0 02.621
0 12.451
0 22.280
0 32.110
0 41.939
0 51.769
1 01.599
1 11428
16
.044
17
0 02.785
0 12.615
0 22.444
0 32.274
0 42.103
0 51.933
1 01.762
1 11.592
17
X>46
18
0 02.949
0 12.778
0 22.608
0 32.438
0 42.267
0 52.097
1 01.926
1 11.756
18
.049
19
0 03.113
0 12.942
0 22.772
0 32.601
0 42.431
0 52.260
1 02.090
1 11.920
19
.052
20
0 03477
0 13.106
0 22.936
0 32.765
0 42.595
0 52424
1 02.254
1 12.083
20
.055
21
0 03440
0 13.270
0 23.099
0 32.929
0 42.759
0 52.588
1 02418
1 12.247
21
.057
22
0 03.604
0 13434
0 23.263
0 33.093
0 42.922
0 52.752
1 02.582
1 12411
22
.060
23
0 03.768
0 13.598
0 23.427
0 33.257
0 43.086
0 52.916
1 02.745
1 12.575
23
.063
24
a 03.932
0 13.761
0 23.591
0 33420
0 43.250
0 53.080
1 02.909
1 12.739
24
X)66
25
0 04.096
0 13.925
0 23.755
0 33.584
0 43414
0 53.243
1 03.073
1 12.903
25
.068
26
0 04.259
0 14.089
0 23.919
0 33.748
0 43.578
0 53.407
1 03.237
1 13.066
26
.071
27
0 04.423
0 14.253
0 24.082
0 33.912
0 43.742
0 53.571
1 03.401
1 13.230
27
.074
28
0 04.587
0 14417
0 24.246
0 34.076
0 43.905
0 53.735
1 03.564
1 13.394
28
.076
29
0 04.751
0 14.581
0 24410
0 34.240
0 44.069
0 53.899
1 03.728
1 13.558
29
.079
30
0 04.915
0 14.744
0 24.574
0 34403
0 44.233
0 54.063
1 03.892
1 13.722
30
.082
31
0 05.079
0 14.908
0 24.738
0 34.567
0 44.397
0 54.226
1 04.056
1 13.886
31
.085
32
0 05.242
0 15.072
0 24.902
0 34.731
0 44.561
0 54.390
1 04.220
1 14.049
32
.087
33
0 05.406
0 15.236
0 25.065
0 34.895
0 44.724
0 54.554
1 04.384
1 14.213
33
.090
34
0 05.570
0 15400
0 25.229
0 35.059
0 44.888
0 54.718
1 04.547
1 14.377
34
.093
35
0 05.734
0 15.563
0 25.393
0 35.223
0 45.052
0 54.882
1 04.711
1 14.541
35
.096
36
0 05.898
0 15.727
0 25.557
0 35.386
0 45.216
0 55.046
1 04.875
1 14.705
36
.098
37
0 06.062
0 15.891
0 25.721
0 35.550
0 45.380
0 55.209
1 05.039
1 14.868
37
.101
38
0 06.225
0 16.055
0 25.885
0 35.714
0 45.544
0 55.373
1 05.203
1 15.032
38
.104
39
0 06.389
0 16.219
0 26.048
0 35.878
0 45.707
0 55.537
1 05.367
1 15.196
39
.106
40
0 06.553
0 16.383
0 26.212
0 36.042
0 45.871
0 55.701
1 05.530
1 15.360
40
.109
41
0 06.717
0 16.546
0 26.376
0 36.206
0 46.035
0 55.865
1 05.694
1 15.524
41
.112
42
0 06.881
0 16.710
0 26.540
0 36.369
0 46.199
0 56.028
1 05.858
1 15.688
42
.115
43
0 07.045
0 16.874
0 26.704
0 36.533
0 46.363
0 56.192
1 06.022
1 15.851
43
.117
44
0 07.208
0 17.038
0 26.867
0 36.697
0 46.527
0 56.356
1 06.186
1 16.015
44
.120
45
0 07.372
0 17.202
0 27.031
0 36.861
0 46.690
0 56J>20
1 06.350
1 16.179
45
.123
46
0 07.536
0 17.366
0 27.195
0 37.025
0 46.854
0 56.684
1 06.513
1 16.343
46
.126
47
0 07.700
0 17.529
0 27.359
0 37.188
0 47.018
0 56.848
1 06.677
1 16.507
47
.128
48
0 07.864
0 17.693
0 27.523
0 37.352
0 47.182
0 57.011
1 06.841
1 16.671
48
.131
49
0 08.027
0 17.857
0 27.687
0 37.516
0 47.346
0 57.175
1 07.005
1 16.834
49
.134
50
0 08.191
0 18.021
0 27.850
0 37.680
0 47J»10
0 57.339
1 07.169
1 16.998
50
.137
51
0 08.355
0 18.185
0 28.014
0 37.844
0 47.673
0 57.503
1 07.332
1 17.162
51
.139
52
0 08.519
0 18^9
0 28.178
0 38.008
0 47.837
0 57.667
I 07496
1 17.326
52
.142
53
0 08.683
0 \SM2
0 28.342
0 38.171
0 48.001
0 57.831
1 07.660
1 17.490
53
.145
54
0 08.847
0 18.676
0 28.506
0 38.335
0 48.165
0 57.994
1 07.824
1 17.654
54
.147
55
0 09.010
0 18.840
0 28.670
0 38499
0 48.329
0 58.158
1 07.988
1 17.817
55
.150
56
0 09.174
0 19.004
0 28.833
0 38.663
0 48492
0 58.322
1 08.152
I 17.981
56
.153 1
57
0 09.338
0 19.1681 0 28.997
0 38.827
0 48.656
0 58486
1 08.315
1 18.145
57
.156
58
0 09.502
0 19.331 0 29.161
0 38.991
0 48.820
0 58.650
1 08479
1 18.309
58
158
59
0 09.666
0 19.495 0 29^25
0 39.154
0 48.984
0 58.814
1 08.643
1 18473
59
.161
56
442 SIDEREAL into Meti SoUr Time.
Argument: Sidereal hours at top ; Sidereal minutea at $ide.
Side
8»^
gh.
10*^
11»^
12 »»
W
14 h.
15^
For
Secoudi.
IB
n.
0
"18.636
r* 28.466
"38.296
r 48.125
r 57.955
2 07.784
2 17.614
2 27443
•
..
1
1 18.800
1 28.630
1 38459
1 48.289
1 58.119
2 07.948
2 17.778
2 27.607
1 0.003 1
2
1 18.964
1 28.794
1 38.623
1 48.453
1 58.282
2 08.112
2 17.941
2 27.771
2
.005 1
3
1 19.128
1 28.958
I 38.787
1 48.617
1 58446
2 08.276
2 18.105
2 27.935
3
X)08 !
4
1 19.292
1 29.121
1 38.951
1 48.780
1 58.610
2 08.440
2 18.269
2 28X)99
4
mi
5
1 19.456
1 29.285
1 39.115
1 48.944
1 58.774
2 08.603
2 18.433
2 28.263
5
.014 '
6
1 19.619
1 29.449
1 39.279
1 49.108
1 58.938
2 08.767
2 18Ji97
2 28426
6
.016
7
1 19.783
1 29.613
1 39.442
1 49.272
1 59.101
2 08.931
2 18.761
2 28.690
7
J019
8
I 19.947
1 29.777
1 39.606
1 49.436
1 59.265
2 09X)95
2 18.924
2 28.754
8
J022
9
1 20.111
1 29.940
1 39.770
1 49.600
1 59429
2 09.259
2 19X>88
2 28.918
9
.025
10
1 20^75
1 30.104
1 39.934
1 49.763
1 59.593
2 09423
2 19.252
2 29i)82
10
.027
11
1 20.439
1 30.268
1 40.098
1 49.927
1 59.757
2 09.586
2 19416
2 29.245
11
.030
12
1 20.602
1 30.432
1 40.261
1 50.091
1 59.921
2 09.750
2 19.580
2 29409
12
.033 ;
13
1 20.766
1 30.596
1 40.425
1 50.255
2 00.084
2 09.914
2 19.744
2 29.673
13
JOSb 1
14
1 20.930
1 30.760
1 40.589
1 50.419
2 00.248
2 10.078
2 19.907
2 29.737
14
xm (
15
1 21.094
1 30.923
1 40.753
1 50.583
2 00412
2 10.242
2 20.071
2 29.901
15
XHl 1
16
1 21.258
1 31.087
1 40 917
1 50.746
2 00.576
2 10405
2 20.235
2 30.065
16
XH4
17
1 21.422
1 31J25\
1 41.081
1 50.910
2 00.740
2 10.569
2 20.399
2 30.228
17
X>46
18
I 21.585
1 31.415
1 41.244
1 61.074
2 00.904
2 10.733
2 20.563
2 30.392
18
X>49
19
1 21.749
1 31.579
1 41.408
1 51.238
2 01.067
2 10.897
2 20.727
2 30.556
19
.052
20
1 21.913
1 31.743
1 41.572
1 51.402
2 01.231
2 11.061
2 20.890
2 30.720
20
X)55
21
1 22.077
1 31.906
1 41.736
1 51.565
2 01.395
2 11.225
2 21.054
2 30.884
21
i)57
22
1 22 241
1 32.070
1 41.900
1 51.729
2 01.559
2 11.388
2 21.218
2 31.048
22
joeo
23
1 22.404
1 32JJ34
1 42.064
1 51.893
2 01.723
2 11.552
2 21J)82
2 31.211
23
.063
24
1 22.568
1 32.398
1 42.227
1 62.057
2 01.887
2 11.716
2 21.546
2 31.375
24
J066
25
1 22.732
1 32.562
1 42.391
1 52.221
2 02.050
2 11.880
2 21.709
2 31.539
25
JMS
26
1 22.896
1 32.726
1 42.555
1 52.385
2 02.214
2 12.044
2 21.873
2 31.703
26
.071
27
1 23.060
1 32.889
1 42.719
1 52.548
2 02.378
2 12.208
2 22.037
2 31.867
27
J074
28
1 23.224
1 33.053
1 42.883
1 52.712
2 02.542
2 12.371
2 22.201
2 32.031
28
/)76
29
1 23.387
1 33.217
1 43XH7
1 52.876
2 02.706
2 12.535
2 22.365
2 32.194
29
^79
30
1 23.551
1 33.381
1 43.210
1 53.040
2 02.869
2 12.699
2 22.529
2 32.358
30
J0S2
31
1 23.715
1 33.545
I 43.374
1 53.204
2 03.033
2 12.863
2 22.692
2 32.522
31
i)85
32
1 23.879
1 33.708
1 43.538
1 53.368
2 03.197
2 13.027
2 22.856
2 32.686
32
J087
33
1 24.043
1 33.872
1 43.702
1 .53.531
2 03.361
2 13.191
2 23.020
2 32.850
33
.090
34
1 24.207
1 34.036
1 43.866
1 53.695
2 03.525
2 13.354
2 23.184
2 33.013
34
j098
35
1 24.370
1 34.200
1 44.029
1 53.859
2 03.689
2 13.518
2 23.348
2 83.177
35
.096
36
1 24.534
1 34.364
1 44.193
1 54.023
2 03.852
2 13.682
2 23.512
2 33.341
36
.098
37
1 24.698
I 34.528
1 44.357
1 54.187
2 04.016
2 13.846
2 23.675
2 33.505
37
.101
38
I 24.862
1 34.691
1 44.521
1 54.351
2 04.180
2 14.010
2 23.839
2 33.669
38
.104 '
39
1 25.026
1 34.855
1 44.685
1 54.514
2 04JI44
2 14.173
2 24.003
2 33.833
39
.106 ;
40
1 25.190
1 35.019
1 44.849
1 54.678
2 04.508
2 14.337
2 24.167
2 33.996
40
.109
41
1 25.353
1 35.183
1 45.012
1 54.842
2 04.672
2 14.501
2 24.331
2 34.160
41
.112 '
42
1 25.517
1 35.347
1 45.176
I 55.006
2 04.835
2 14.665
2 24495
2 34.324
42
.116
43
1 25.681
1 35.511
1 45.340
I 55.170
2 04.999
2 14.829
2 24.658
2 34488
43
.117 .
44
1 25.845
1 35.674
1 45.504
1 55.333
2 05.163
2 14.993
2 24.822
2 34.652
44
.120 1
45
1 26.009
1 35.838
1 45.668
1 55497
2 05.327
2 15.156
2 24.986
2 34.816
45
.123
46
1 26.172
1 36.002
1 45.a32
1 55.661
2 05.491
2 15.320
2 25.150
2 34.979
46
.126
47
1 26J}36
1 36.166
1 45.995
1 55.825
2 05 655
2 15484
2 25.314
2 35.143
47
.128 1
48
1 26.500
1 36.330
1 46.159
1 55.989
2 05.818
2 15.648
2 25477
2 35JJ07
48
.131 ||
49
1 26.664
1 36.493
1 46.323
1 56.153
2 05.982
2 15.812
2 25.641
2 35471
49
.134
50
1 26.828
1 36.657
1 46.487
1 56316
2 06.146
2 15.976
2 25.805
2 35.635
50
.137
51
1 26 992
1 36821
1 46.651
1 56.480
2 06JJ10
2 16.139: 2 25.969
2 35.798
51
.139 '
52
1 27.155
1 36.985
1 46.815
I 56.644
2 06474
2 16.303' 2 26.133' 2 35.962 |
52
.142 1
53
1 27.319
1 37149
1 46.978
1 56.808
2 06.637
2 16.467
2 26.297 2 36.126
53
.145
54
1 27.483
1 37.313
1 47.142
1 56.972
2 06.801
2 16.631
2 26460 2 36.290
54
.147 '
55
1 27.647
1 37.476
1 47.306
1 57.136
2 06.965
2 16.795
2 26.624* 2 36454
55
.150
56
1 27 811
I 37.640
I 47.470
1 57.299
2 07.129
2 I6.9.'>9 2 26.78M
2 36.618
56
.153
57
1 27.975
1 37.804
1 47.634
1 57.463
2 07.293
2 17.122 2 26.952
2 36.781
67
.156
58
1 28.138
1 37.968
1 47.797
1 57.627
2 07457
2 17.286 2 27,116
2 36.945
68
.158
59
1 28.302
1 38.132
1 47.961
I 67.791
2 07.620
2 17450 2 27.280
2 37.109
69
.161
SIDEREAL into Hon Solar Time.
443
Aigament : Sidereal hours at top ; Sidereal minutes at side
Side-
real
16»»
17"
18*^-
19*^ 20^
21 »^-
22^
23 »*
fat
Swronik. 1
m.
0
2 '37.273
m. a.
2 47.102
2 56.932
3 06.762
3 16.591
3 26.421
3' 36.250
3 46.080
^
1
1
2 37437
2 47.266
2 57.096
3 06.925
3 16.755
3 26.585
3 36.414
3 46.244
\
0.003
2
2 37.601
2 47.430
2 57.260
3 07.089
3 16.919
3 26.748
3 36.578
3 46.407
it
.f>05
3
2 37.764
2 47.594
2 57.424
3 07.253
3 17.083
3 26.912
3 36.742
3 46.571
;i
.iJOH i
4
2 37.928
2 47.758
2 57.587
3 07.417
3 17.246
3 27.076
3 36.906 3 46.7,:J5
4
AiU 1
5
2 38.092
2 47.922
2 57.751
3 07.581
3 17.410
3 27.240
3 37.069
3 46.8i*t*
f.
.OU '
6
2 38.256
2 48.085
2 57.915
3 07.745
3 17.574
3 27.404
3 37.233
3 47.or.a
3
Jim ,
7
2 38.420
2 48.249
2 58.079
3 07.908
3 17.738
3 27.568
3 37.397
3 47.2:i7
7
,01 » '
8
2 38.584
2 48.413
2 58.243
3 08.072
3 17.902
3 27.731
3 37.561
3 47.390
8
A>TI '
9
2 38.747
2 48.577
2 58.406
3 08i236
3 18.066
3 27.895
3 37.725
3 47.554
9
xt'ih ;
10
2 38.911
2 48.741
2 58.570
3 08.400
3 18.229
3 28.059
3 37.889
3 47.718
10
.027 j
11
2 39.075
2 48.905
2 58.734
3 08.564
3 1^.393
3 28.223
3 38.052
3 47.882
U
,0.10 .
12
2 39.239
2 49.068
2 58.898
3 08.728
3 18.557
3 28.387
3 38.216
3 48.04t>
Vi
03S
13
2 39.403
2 49.232
2 59.062
3 08.891
3 18.721
3 28.550
3 38.380
3 48.210
l.'J
m5
U
2 39.566
2 49.396
2 59.226
3 09.055
3 18.885
3 28.714
3 38.544
3 48.373
14
.038
15
2 39.730
2 49.560
2 59.389
3 09.219
3 19.049
3 28.878
3 38.708
3 48.537
15
.041
16
2 39.894
2 49.724
2 59.553
3 09.383
3 19.212
3 29.042
3 38.871
3 48.?0l
16
.044
17
2 40.058
2 49.888
2 59.717
3 09.547
3 19.376
3 29.206
3 39.035
3 48.865
17
.046
18
2 40.222
2 50.051
2 59.881
3 09.710
3 19.540
3 29.370
3 39.199
3 49.0i9
18
,049
19
2 40JJ86
2 50.215
3 00.045
3 09.874
3 19.704
3 29 533
3 39.363
3 49.193
VJ
.052
20
2 40.549
2 50.379
3 00.209
3 10.038
3 19.868
3 29.697
3 39.527
3 49.3^6
20
.055
21
2 40.713
2 50.543
3 00.372
3 10.202
3 20.032
3 29.861
3 39.691
3 49.521>
21
.U57 i
22
2 40.877
2 50.707
3 00.536
3 10.366
3 20.195
3 30.025
3 39.854
3 49.6^
22
.060 \
23
2 41.041
2 50.870
3 00.700
3 10.530
3 20.359
3 30.189
3 40.018
3 49.848
23
.063
24
2 41.205
2 51.034
3 00.864
3 10.693
3 20.523
3 30.353
3 40.182
3 50.012
24
Aim
25
2 41.369
2 51.198
3 01.028
3 10.857
3 20.687
3 30.516
3 40..346
3 50.175
S.'V
.068
26
2 41.532
2 51.362
3 01.192
3 11.021
3 20.851
3 30.680
3 40.510
3 50..339
^t»
.071
27
2 41.696
2 51.526
3 01.355
3 11.185
3 21.014
3 30.844
3 40.674
3 50.503
27
JJ74
28
2 41.860
2 51.690
3 01.519
3 11.349
3 21.178
3 31.008
3 40.837
3 50.667
2S
.076
29
2 42.024
2 51.853
3 01.683
3 11.513
3 21.342
3 31.172
3 41.001
3 50.8:^1
29
,079
SO
2 42.188
2 52.017
3 01.847
3 11.676
3 21.506
3 31.336
3 41.165
3 50.995
:*(!
.082
31
2 42.352
2 52.181
3 02.011
3 11.840
3 21.670
3 31.499
3 41.329
3 51.1.18
31
.035
32
2 42.515
2 52.345
3 02.174
3 12.004
3 21.834
3 31.663
3 41.493
3 51.3^2
:ia
.087
33
2 42.679
2 52.509
3 02.338
3 12.168
3 21.997
3 31 827
3 41.657
3 51.4NIJ
Xi
.090
34
2 42,843
2 52.673
3 02.502
3 12.332
3 22.161
3 31.991
3 41.820
3 51.65(1
^4
.093
35
2 43.007
2 52.836
3 02.666
3 12.496
3 22.325
3 32.155
3 41.984
3 51.814
-"<&
M^
36
2 43.171
2 53.000
3 02.830
3 12.659
3 22.489
3 32.318
3 42.148
3 51.978
m
Mm
37
2 43.334
2 53.164
3 02.994
3 12.823
3 22.653
3 32.482
3 42.312
3 52.UI
:t7
.101
38
2 43.498
2 53.328
3 03.157
3 12.987
3 22.817
3 32.646
3 42.476
3 52.305
.■18
.104
39
2 43.662
2 53.492
3 03.321
3 13.151
3 22.980
3 32.810
3 42.639
3 52.4^9
-19
,10« '
40
2 43.826
2 53.656
^ 03.485
3 13.315
3 23.144
3 32.974
3 42.803
3 52.6rKJ
40
,109
41
2 43.990
2 53.819
3 03.649
3 13.478
3 23.308
3 33.138
3 42.967
3 52.7^>7
41
J 12
42
2 44.154
2 53.983
3 03.813
3 13.642
3 23.472
3 33.301
3 43.131
3 52.961
A-i
,115
43
2 44.317
2 54.147
8 03.977
3 13.806
3 23.636
3 33.465
3 43.295
3 53.11M
4.1
.117
44
2 44.481
2 54.311
3 04.140
3 13.970
3 23.800
3 33.629
3 43.459
3 53.288
44
.120
45
2 44.645
2 54.475
3 04.304
3 14.134
3 23.963
3 33 793
3 43.622
3 53.45^
45
.123
46
2 44.809
2 54.638
8 04.468
3 14.298
3 24.127
3 33.957
3 43.786
3 53.61 fi
46
.126
47
2 44.973
2 54.802
3 04.632
3 14.461
3 24.291
3 34.121
3 43.950
3 53.780
47
.123
48
2 45.137
2 54.966
3 04.796
3 14.625
3 24.455
3 34 284
3 44.114
3 53.94n
48
.131
49
2 45.300
2 55.130
3 04.960
3 14.789
3 24.619
3 34.448
3 44.278
3 54.107
49
.134
60
2 45.464
2 55.294
3 05.123
3 14.953
3 24.782
3 34.612
3 44.442
3 54.271
r>o
.137 '
51
2 45.628
2 55.458
3 05.287
3 15.117
3 24.946
3 34.776
3 44.605
3 544:^5
51
.139
52
2 45.792
2 55 621
3 05.451
3 15.281
3 25.110
3 34.940
3 44.769
3 54.5*J9
52
.US
53
2 45.956
2 55.785
3 05.615
3 15.444
3 25.274
3 35.104
3 44.933
3 54.76.'r
fj.T
.145
54
2 46.120
2 55.949
3 05.779
3 15.608
3 25.438
3 35.267
3 45.097
3 54.92fj
54
.147
55
2 46.283
2 56.113
3 05.942
3 15.772
3 25.602
3 35.431
3 45.261
3 55.0'JO
ar,
J 50
56
2 46.447
2 56.277
3 06.106
3 15.936
3 25.765
3 35.595
3 45.425
3 55.2-54
s&
J 53
57
2 46.611
2 56.441
3 06.270
3 16.100
3 25.929
3 3.5.759
3 45.588
3 55.418
57
,156
58
2 46.775
2 56.604
3 06.434
3 16.264
3 26.093
3 35.923
3 45.752
3 55.582
58
.1,V8
59
2 46.939
2 56.768 3 06.598
3 16.427
3 26.257
3 36.086
3 45.916
3 55.746
59
.161
444
PHENOMENA, 1855.
WASHINQTON MBAN TDIB.
PLANETARY CX)NSTELLATIONS.
Jan.
d.
1
1
1
4
12
Feb.
Mmr.
b. in.
4 11
6 58
9 52
12 12
1 40
17 11 46
18 0 43
18 4 13
18 4 28
18 19 17
20 2 35
20 n 25
24 18 4
24 22 9
24 23 39
25 1 1
27 3 32
29 9 40
1 11 1
3 22 27
6 20 25
7 10 38
8 2 58
8 21 52
12 22 7
15 1 44
16 18 18
17 2 17
17 4 23
17 11 48
17 20 29
10 22 4
21 8 18
23 10 17
23 23 52
27 16 8
27 19 57
27 20 11
5 18 24
14 21 38
15 23 58
17 18 17
18 4 1
19 3 30
20 11 0
20 19 48
22 21 11
O in Perigee. ^ ,
6 i 21 ^-h 038
^ greatest Hel. Lit. S.
^ in Aphelion.
9 in Aphelion.
6 SC S-4-239
6 9 21 9 - 0 47
6 2t<L if 4-429
6 9<L 9-h3 42
6 i<L ^-1-4 7
<J S O Sup.
9 stationary.
6 5 -^ tj- 1 34
^ greatest Hel. Lat. S.
6 VC V-H0 12
$ in Perihelion.
6 n<C >l — 3 28
6210
□ 9 O
9 greatest Hel. Lat. S.
6 9 $ 9-0 31
6 5 6 ^occulted.
6 5 ? g-h037
ri stationary.
5 in a
6 21<L ^-H 4 36
6 i € ^-h3 59
6 9 € 94-3 19
6 \i € 54-6 63
$ in Perihelion.
^ great, elong. E. 18 5
<J5? 54-320
6 9 € V — 0 8
6 h<L >i— 8 37
5 stationary.
D hO
5 greatest Hel. Lat. N.
6 5 i 54-439
6 8 O Inf.
6 J[€ ^4-441
6 ^ <C 5-4-7 2
6 i € ^4-2 59
5 stationary.
6 9 € 94- 1 30
O entered Y
6 W<£ ■ — 026
6 h€ Ij — 3 51
d. h. m.
Mar. 23 7 30
Apr. 16 7
2 3 17
2 11 25
7 9 7
9 10 48
11 14 17
14 - -
15 18 26
17 8 21
18 7 24
19 11 2
22 21 25
May 1 - -
1 21 12
4
7
7
9
10
11 52
6 12
7 11
3 12
0 55
11 21 22
12 19 15
14 17 43
15 - -
14 20 3
15 16 19
16 U 4
16 15 20
17 1 53
18 11 25
22 5 5
24 19 37
26 16 54
26 19 12
28 21 20
June 5 12 51
10 5 14
11 5 53
12 15 16
13 16 0
14 7 47
15 23 37
17 13 39
19 6 45
21 7 41
21 19 12
27 12 43
5 in
9 in „
5 ^reat. elong. W. 27 46
5 in Aphelion.
6 9 9 9 4- 039
i
6 :U€ ^4-4 42
<J 5 C S-h 1 8
6 i€ ^-1- 1 80
^VC V — 038
6 9 <C ?-o
6 h€ h — 4 3
S gieatMt Hel. Lat. S.
i eelipaed.
6 9 h ?-»-944
9 in PerihelioD.
6 VO
6
6
U
. » — 0 35
..J+4 34
6 H 9 5-1-0 4
5 inQ
6 9 ©Sop.
6 l€ ,y-0S8
0 eelipaed.
6 »C » — 0 47
i 5 C..... 5 -048
5 in Perihelion.
6 } 9 /-I-0 12
6 h€ li-4 13
6 9 € 9 — « 8
<J 5 >l . . . . 8 H- 3^ 8
9 greatest Hel. Lat. N.
5 greatest Hel. Lat. N.
6 2t€ 2f4-4 17
a
$-9 1
ft — 4 24
5 great, eloog. E. 24 36
<J 5 <C 5-4 6
6 9 € 9-3 11
in 8
enters
J5in8
0 enters S
}[ stationary.
5 stationary.
PHENOMENA, 1856.
445
WASHINQTON MBAN TIME.
PLANETARY CONSTELLATIONS.
d.
h. m.
June 29
10 40
July 2 20 10
3
10 52
5 22 30
8
13 53
11
5 9
11
10 55
11
12 11
13
2 43
17
10 51
19 20 40
21
18 33
22
3 31
22
17 9
30
2 11
31 21 16
Aug. 4 21 4
7
16 27
7 20 37
9
5 10
10
4 10
12
10 20
13
12 7
15
18 17
20
14 18
22
18 30
24
19 29
25 23 12
26
7 36
26
12 35
Sept. 1
4 36
4
2 43
6 22 49
7
18 50
11 22 9
12 15 51
15
6 1
16
15 8
16
18 33
22
13 14
22
14 20
22 21 52
25
9 57
28
13 2
30
13 14
Oct. 1 12 11
b in Aphelion. ^
6 lliL ^-f-3 58
O in Apogee.
6 ^>l.....^-M37
6 V^ <L V— 113
6 h<i b— 4 39
6 i<L i— 3 10
<J a O Inf.
6 S<C g — 936
6 9C 9 — 4 18
b greatest Hel. Lat. S.
9 in 9
^ Btationarj.
9 great, elong. E. 45 38
6 ^<L ^4-3 45
^ great, elong. W. 19 19
6 V<C V— 132
6h<i >i — 4 58
5 in a
6 $<i ^-3 54
6 SC 8 — 4 33
§ in Perihelion.
□ VO
6 9C 9 — 6«5
^ greatest Hel. Lat. N.
9 in Aphelion.
<J S O Sup.
6 2l<L ^+345
9 stationary.
6 V<C V— 149
<Jh<C >i— 5 19
6 i<L ^-4 11
9 stationary.
6 S<C g — 233
6 9 <L 9 —10 25
a in 8
9 greatest Hel. Lat. S.
<J99 9-h8 32
6 TliL 4if-h3 55
D hO
O enters d^
g in Aphelion.
(JWC V-157
<J 9 O Inf.
6h<i lz-5 34
Oct.
d. h.
5 16 33
8 20 47
10 13 28
12 4 25
12 13 11
15 19 55
18 22 40
19 4 20
19 19 38
22 18 21
24 - -
25 21 51
28 20 46
Not. 2 19 41
3 10 23
3 19 52
6 11 0
8 4 25
8 9 36
9
11 1 55
11 15 4
11 21 55
16 3 48
16 6 21
18 17 43
19 7 33
22 5 41
25 3 51
30 6 52
Dee.
2 3 11
4 1 8
7 17 44
11 3 59
12 5 14
13 15 14
15 7 52
18 6 21
19 11 36
21 15 40
28
30
30
8 48
9 14
10 31
16 17
19 24
31 5 28
6 i € ^— 3 55
6 9 <L 9 —10 58
g great elong. E. 24 56
ri stationary.
6 5C g — 2 13
S greatest Hel. Lat. S.
jjf stationary.
9 stationary.
6 V€ 2f-t-4 4
g stationary.
<£ eclipsed.
6 ¥<C 9— 154
6 h<C >^ — 638
<J S O Inf.
6 i€ ^-3 0
a in a
6 9 € 9 — 4 12
6 5<C 54-1 34
5 in Perihelion.
O eclipsed.
* ¥0
5 stationary.
9 in a
6 2t€ ^4-4 5
5 greatest Hel. Lat. N
5 great, elong. W. 19 33
<JV<C V— 147
6 h€ >i— 5 31
i greatest Hel. Lat. N.
6 $€ ^-130
6 9 € 9-H154
6 5<C 5-1-3 13
9 great, elong. W. 46 49
5 in 8
6 2t€ :y+3 52
9 in Perihelion.
s no
6 V€ W— 146
O enten "VJ
6 h€ h — 620
ti in Aphelion.
n ^O
6 i€ ^4-0 18
O in Perigee.
6 HO Sop.
LATITUDES AND LONGITUDES OF THE PRINCIPAL
OBSERVATORIES.
COMPILED BY DR. B. A. GOULD.
Having been requested by Lieutenant Davis to arrange for the Astronomical
Ephemeris a Table of Latitudes and Longitudes of the principal Observatories, I
have devoted some time and attention to the critical preparation of this catalogue.
But since the values decided upon differ considerably in many cases from those in the
other published catalogues, and in some few instances from the values which appear
to be made use of at the Observatories themselves, I feel some hesitation in publish-
ing them without asking the attention of astronomers to the catalogue, that such inac-
curacies as it may contain may be corrected as speedily as possible. The sources
of information are given in each case, and when possible the probable error also is
given with the determination. One important change consists in the adoption of the
differences of longitude between Altona and Pulkowa, and Greenwich and Altona, as
determined by Struvb in his chronometric expeditions of 1843 and 1844. The adop-
tion of these values necessarily implies a corresponding change for the longitude of
those Observatories whose position has been fixed by their difference of longitude
from Altona or Pulkowa, or from other Observatories dependent upon these. The
differences of longitude of the American Observatories are deduced from the tele-
graphic determinations of the United States Ckxist-Survey, — and have been commu-
nicated by Professor Bachb, by authority of the Honorable Secretary of the Treasury.
I have endeavored to include in the list all Observatories now in a state of astro-
nomical activity, or which have been so within the last quarter of a century. Any
corrections or additions with which astronomers may favor me will be gratefully
acknowledged.
Ibo. . . . N. Lat W* 26' b6".S =k 0". 1 1. Argblander, Obs. Asiron., I. p. xxi.
Long. E. from Paris, 1^- 19« 4r-.3. Astr. Naekr., IX. 264.
This Observatory was abandoned, and the instruments transferred,
together with the University of Finland, to Helsingfors, in conse*
quence of the great fire of 1827, by which the University buildings,
library, 6lc, were destroyed.
AltOlt. . . N. Lat. 53^ 32' 45 '.27. Gauss, Destimmung des BreUen-Unfer-
ichiedes zwischen den Siemwarlen von Goiiingen und Altona^ p. 71.
In the edition of Schumacher's Huifslafelny published by Warn-
STORFF, Altona, 1845, the latitude of Altona is given p. 114, as
+5.r 32' 45 .7.
THE PRINCIPAL OBSERVATORIES. 447
Long. E. from Greenwich, 0^ 39"** 46^.151 ± 0"-.042. Stbuvb, jEp-
pidition Chronometrique execuUe in 1844, erUre Altona et Greeur
wich, p. 206.
Atlum . . N. Lat Sr 58' 20" ± 1". Bouris, Astr. Nackr., XXXIII. 197.
Long. E. from Paris, P 25"- 34'^ .23 ± 1**. Ergdnzungs-Heft xu den
Astr, Nachr.y 1849, p. 151. This longitude was obtained from
moon-culminating stars observed on ten nights at Athens and Ham-
burg. The result of a series observed at Athens and Copenhagen
gave the longitude of Athens 6*^.84 farther East, but this series was
rejected. Ibid.^ pp. 150, 151, 158. Diminishing the E. longitude of
Hamburg in conformity with Struye's chronometric determination,
we have for the longitude of the meridian-circle P* 25*^* 33*. 73
±P.
The centre of the Observatory is 0*-.19 W. from the meridian-
circle, Erg.'Heft %, d. Astr. Nachr.y p. 152.
Berlin. . . N. Lat. 52*^ 30' 16".68 ±0".2. Encke, iljfr. iVoc^., XXm. 372.
For the Longitude of the centre of the Observatory, we have
h. m. ■.
Beriin E. from Altona, 0 13 48.78 ±0.03 Berl. Astr. Jahrb.^
Altona E. from Greenwich, 0 39 46.15 [1839, p. 275.
Beriin " " 0 53 34.93
The old Observatory was situated 0' 56".72 North {Berl. Astr.
Jahrh., 1839, p. 242 ; Astr. Nackr., XXm. 370), and 0^.39 West
{Ibid.<, pp. 261, 265), of the new one. Hence we have for the old
Berlin Observatory,
N. Lat., 52** 31' 13".4.
Long. E. from Greenwich, 0^- 53" 34'*.54.
Bilk. . . . N. Lat. 5V 12' 25". Astr. Nachr., XXVII. 300.
Long. W. from Beriin, 0^* 26"- 30* .0. Ibid.
Bom. . . . N. Lat. 50"" 43' 45".0. > Orally communicated by Prof.
Long. E. from Paris, 0^ 19"' 3*-.0. ' Argelander to the compiler.
The provisional Observatory on the ** Alter Zoll,^^ in which were
made the observations published in Vol. I. of the Bonn series, was
situated in
N. Lat. 50** 44' 9".
Long. E. from Paris, 0^ 19"- 5^.5. Bonn Astr. Beohh.^ L p. i.
Bndan. . . N. Lat. 51"* 6' 56".0. (MS. communication from Professor Boou-
SLAWSKI to Professor Encke.) Berl. Astr. JaUrh.^ 1852, p. 289. The
value given in the Berl. Jahrh, previously to 1851, was 51** 6' 30".0.
The Longitude given in the table is derived from a mean of four de-
terminations of the longitude E. from Paris, viz. : —
448
THE PRINCIPAL OBSERVATORIES.
Triangulation in 1805 (fire-signab), Astr, Nachr.^ h. m. •.
XVI. 371, 0 58^48!6
Stbczxowski (6 star-immersions), Ibid,^ 48.17
Hansen (occultations), Astr. Nachr,, XVII. 170. 48.74
Erman and Petersen (meteors), Astr. Nachr,^
XIX. 27, 48.67
Mean, Breslau £. from Paris, 0 58 48.54
SniKll. . . . N. Lat 50"* 5r 10".7. AnndUs de VObs. de Bruxelles, 1837,
p. 264.
Long. W. from Greenwich, 0^- 17"* 27''.6. Qubtelbt, Mim. de
VAcad. R. de Bruxelles, XVI. 18.
Cambridge (Bug.)- N. Lat 52^ 12' 51".76. Camh. Phil. TVoiw., V. 279.
Long. E. from Greenwich, 0^- 0-- 23^54. iWrf., III. 168.
ClBbridp (Iin.). N. Lat. 42^ 22' 48".60. Pbiecb, Mem. Amer. Acad., N. &, II. 203.
Long, by the telegraphic determinations of the U. S. Coast-Survey,
Cambridge E. from Stu3rvesant Garden, N. Y., h m. •.
By 34 sets of clock-signals, 0 11 26.10
10 '' '' star-signals (Western), 26.13
24 " " " (exchanged E. and W.), 25.96
" 17 " «* " (Eastern), 26.18
Mean, 0 11 26.09
Greodetic reduction to dome of Cambridge Observa-
tory, —0.02
Stuyvesant Garden E. of Jersey City (geodetic), 0 11.98
Cambridge E. from C. S. Station, Jersey City, 0 11 38.00
Jersey City E. from Washington (see Philadelphia), 0 12 3.54
Cambridge (dome) E. from Washington, 0 23 41.54
Cipe of Good bpe. S. Lat 33^ 56^ 3". Henderson, Mem. R. Astr. Soe., VI. 130.
Long. E. from Greenwich, h. m. •.
By Greenwich Observations, 1 13 56.1 Ibid., p. 126.
" Cambridge "
** Abo *♦
** Edinburgh "
Mean, 1 13 56.0
N. Lat 59* 54' 43".7.
Long. E. from Paris, 0^ 33^ 83*^.3.
41
65.04
C«
p. 127.
58.56
Cft
p. 128.
54.2
41
p. 129.
ChriHiaiii.
> Astron. Joum., II. 173.
N. Lat 39** 5' 54". Astr. Nackr., XXIII. 313.
Long. W. from Waahmgton, 0^ 29-- 46" .85. (U. S. Coast-Sur-
vey.) Proc. Amer. Assoc, for Adv. Sdemce, Cincinnati, 1851,
p. 118.
THE PBJNCIPAI. OBSERVATORIES. 449
Copenlupil. By Copenhagen Observatory is usually understood the *^ Round Tower **
of the University. The new instrument^ are, however, mounted in a
temporary wooden building known as ^^ Holkens Bastion.^^ (See Astr.
Naehr.,X[X. U9).
N. Lat of the Round Tower, 65* 40' 53".0. Aetr. Nachr., V. 866.
For the Longitude,
Holkens Bastion E. from Altona, h. m ■.
Hansen {Astr. JVocAr., VIII. 281), 0 lo"32.586 139.88
Schumacher {Astr. Nackr,, IX. 463), 32.565 19.42
Mean, 10 32.583
Altona E. from Greenwich, 39 46.151
Holkens Bastion E. from. Greenwich, 50 18.734
Round Tower E. from Holkens Bastion
( WuBM, Astr. Nackr., IH. 438 ; V. 337), 0.57
Round Tower E. from Greenwich, 0 50 19.30
eneow. . N.Lat. 50* 3' 50".0±0.09. Wbissb, il«<r. JVocAr., Vffl. 175 ; XVI.
256.
Longitude E. from Paris,
Meanof 18obs.byWuRM(i!«fr.JVacAr.,Vin. ^ ^ ^
459), (6 of the 25 being rejected), 1 10 28.986 ±0.461
Mean of 25 obs. by Steczkowski {Astr.
Nachr., XVL 3S2), 30.221 ± 0.301
Mean of 4 obs. by Steczkowski {Astr. Nachr.y
XVin. 332), 29.760 ± 0.085
Mean of 16 obs. of three occultatioas (Stbcz«
KowsKi, Astr. Nackr., X. 232), 30.95 ±0.253
Assigning to each of these determinations a
weight proportional to the number of obser-
vations from which it was derived, we obtain
• the mean,
Cracow E, from Paris, 1 10 29.78
Doipat . . N. Lat. 58^ 22' 4r'.05. Strttve, Observ. Astran., VI. p. Iz.
Long. p. from Paris, 1 37 32.70. Wurm, Astr. Nachr., HI. 487.
33.5 Bbssbl, " ra. 46.
l^ean, 1 37 33.1
Dublin. . . N. Lat 53'' 23' 13''.
Long, W. from Greenwich, 0^ 25-- 22^. Astr. Nachr., X. 274.
DHdumi. . N. Lat. 54"* 46' 6''.4.
Long. W. from Greenwich, 0^ 6-- 18" .0. Astr. Nachr., XXVI. 215.
57
452 THE PRINCIPAL OBSERVATORIES.
loldlML . (Mr. Bbhop's Oboenratory.)
N. Lat ^l"" 31' 29''.8. Astr. Oh$. at the OfmervaM^ Sovik ViUa^
p. six.
Long. W. from Greenwich, 0^ 0^ 37^.1.
Nldru. . N. Lat Id"" 4' 9''.2.
Long. E. from Greenwich, 5^ 90** 57^. Taylor, Madras General
CataJ., 1844, Pref. p. ii.
lunMlll. N. Lat. 49'' 29* 12''.9. Aetr. Naekr., Xn. 129.
Long. E. from Paris, as determined h. m. •.
By WiniM, from occultations {Aetr. Nachr., YUl. 466), 0 24 29.92
^ connection with Strasburg {Astr. Nachr.^ XV. 280), 29.87
** ** " Vienna (Astr. Naehr., XV. 1170;
XXra. 263), 80JW
By connection with Dunkirk (Mdvruiia, A$tr. Nmekr.^
XV. 279), 80.05
By Olufien from Solar Eclipse {Aetr. Naekr., XXIL 234), 30.10
Mean, 0 24 30.04
Hukm. . N. Lat 54^ W 31".72. Aitr. Jaurn., H. 12.
Long. W. from Greenwich, 0^ 88-- 48^.4. 2Vmrf. Aim., 1862, p. 698.
HUMillei. N. Lat. 43" IT 49". Monail. Correep., XIU. 139.
Long. E. from Paris, according to
LiMDENAU {Monatl. Carr., XIX. 421),
WuRM (Monatl Corr., XXVI. 186),
« {A$tr. Naehr., IV. 38),
Iififss {Astr. Nachr., VOL 486),
Mean,
Blai« . (Brera.)
N. Lat 46'' 28^ <y'.7. Corresp. Aetran., V. 300 ; ^fm. Aetr. di Mi^
lamoj 1846, App., pp. 73-86.
Long. E. from Paris,
Dausst found from 31 occultations (Coftn. d. Tatq^, k m. &
1836, Add., p. 131), ^ ^ 0 27 Mj91
LiTTRow found Milan W. from Vienna (Rid.), 28 46d83
66 11.07
0 27 26.44
Mean, 0 27 26.18
. N. Lat 44'' 38" 62".76. BiAncm, Astr. Nackr.,XVl.Vai i AiH MR.
Oiserv. di Modefna, L 336 (1834).
Long. E. from Milan, 0^ 6** 66^.99. Id., p. 887.
Hence E. from Paris,
No. Ota.
4
k. m. «.
0 13 7.7
19
7.6
13
7.6
4
7.05
0 13 7.68
THE PRINCIPAL OBSERVATORIES. 458
k. n. «.
By comparison with Milan, 0 34 20.45
WuRM from occultatioDfl, 23.5 Astr.Naehr.^l. 504. t
" " " 24.5 « m.392.
Steczkowski from occultationa, 21.81 ** XVI. 299, 302.
Olufsen from solar eclipee, 22.32 " XXII. 234.
Mean, 0 34 22.51
lOttOW. . N. Lat. 55* 45* 19".8. Schweizer, Astr. Nachr., XXVII. 215.
Long. Moscow £. from Pulkowa, 0 28 58.2 A$tr. Nachr.,XXlV. 90.
Pulkowa E. from Greenwich, 2 1 19.09
Moscow " " " 2 30 17.29
Hnnielb (Bogenhausen.)
N. Lat. 48* 8' 45". Soldner, Astr. Nachr,, IX. 422.
Long. E. from Paris, tf* 37" 4*^.98. Astr. Nachr., VIII. 148.
Naples. . N. Lat. 40* 51' 46".63. Brioschi, Astr. Nachr., V. 294.
The Longitude adopted is that by which Peters has apparently made his
reductions, Astr. Nachr.^ XXIII. 302, 303, according to which we have,
Naples E. from Berlin, tf^ 3" 26^.0.
For determinations from solar eclipses by Brioschi and Santini, see
Astr. Nachr., VI. 413.
OUbrd. . N.Lat^51*45/36''.0 ^ 1 2V«a. ^Z«., 1852, p. 599.
Long. MT. from Greenwich, 0^- 5"^ 2^.6 J » . ' r
Padua. . N. Lat. 45* 24' 2".5. SANTim, Astr. Nachr., VL 411 ; XVH. 346.
Long. E. from Paris, .
WuRM {Astr. Nachr., TV. 347), 0 38°^ 7!?
P^ua E. from Milan by powder signals h. m. ■
(Fallon, Astr. Nadir., IV. 115), 0 10 43;27
Milan E. from Paris, 27 24.18
0 38 7.45
Mean, Padua E. from Paris, 0 38 7.57
Pakimo. . N. Lat 38* 6' 44". Caogiatore, Del Real Osservatorio di Palermo
Libri Vn., VIII., IX., p. 2 ; Storia Celeste del R. Osserv. di Palermo,
in Ann. d. Wiener Stemwarte, XXIV. 6.
Long. '£. from Paris, 0^- 44°"* 4''.0. Davssy,< Add. Conn. d. Temps,
1835, p. 8.
Bianchi, Astr. Nachr., XVH. 350, calb the latitude of the Palermo
Observatory, +38* 6' 25".50.
Paiamatla. S. Lat. 33* 48' 49".79. RnmtER, Phil. Trans., 1829, Part m. p. 16.
Long. E. from Gieenwich, . }0^ 4"' 6* .25. Rid., p. 29.
464 THE PRINCIPAL OBSERVATORIES.
Pull. • . N. Lat 48'' 5(K 13''.2. Conn. d. Ten^, 1835, p. 856.
Long, as above under Greenwich.
SL FMeidNirK. (Academy.)
N. Lat 59* 56' 29".67.
Long. W. fronfi Pulkowa, 0* 5**. 194. QnuYEyDeMcnptiondePOhM.
de Poulkovay p. 292.
FUladdpUa. N. Lat. 39'' 5r 7".5. MS. communication from Professor Kbm dall.
Long. £. from Washington (U. S. Coast Survey),
m. •.
By 5 sets Eastern clock-signals, 7 33.66
" " Western " 33.60
Mean, 7 33.63
Long. Jersey City Station £. from Washington,
By 2 sets Eastern clock*signaIs,
** " Western "
12 3.58
8.52
Mean,
Long. W. from Jersey City Station,
By 8 sets Eastern clock-signals,
ii cc (i a c(
12 3.56
4 29.91
29.84
Mean,
Hence we may use.
4 29.88
Jersey City Station E. from Philadelphia, 0 4 29^
u ii ii Washington, 0 12 8.58
Philadelphia, '' «' 0 7 33.64
PngM. . . N. Lat 50* 5^ 18''.5. David, Asir. Naekr., VIII. 198.
Long. E. from Paris,
Mean of 6 occultations (il«^. JYocAr., XVL 299, ^ ^ ^
302), 0 48 21.66 ± 4.15
Hansen from occultations {Astr, JYocAr., XYII.
170), 19.59 ± 8.67
Mean, Prague E. from Paris, 0 48 20.50
PlllUWa. . N. Lat 59'' 46^ 18''.70. Stbute, Deter. derOht.de Paulkava, p. 290.
Long. E. from Altona {Exp. Chron, de 1843, |^ n. «.
p. 144), 1 21 82.523 d= 0.039
Altona E. from Greenwich {Exp. Ckron.
de 1844, p. 206), 0 89 46.151 ± 0.042
Pulkowa E. from Greenwich {E^qt. Ckr&n.
de 1844, p. ix.), 2 1 ia674 ± 0.057
(CoUegio Romano.)
N. Lat 41'' 53' 54''. Carnt. d. Tes^, 1840, p. 854
Long. E. from Greenwich, 0^ 49^ 54-.7. Attr. Naekr., YUl 88.
THE PRINCIPAL OBSERVATORIES.
455
San Fernando. N. Lat 86* 27' 45". Carresp. Astron., XIV. 240.
Long. W. from Paris, 0^ 34-- 10^.6 ±0* .31. Astr. Nachr.,lX.S6S.
SontiagD. . (Observatory of the U. S. Astionomical Elzpedition.)
S. Lat 32* 26' 24".8.
Long. W. from Greenwich, 4*- 42^ IQ'-.S. Oilliss, .^ron. Jaum.j
n. 118.
Senftenkpg. . N. Lat. 50* & 10".1.
Vienna.
Washington.
Wilna.
L
Long. E. from Berlin, 0^ 12" 15^.
I Astr. Nachr., XXXI. 174, 331.
N. Lat. 48* 12' 35".5. Berl. Astr. Jahrb., 1862, p. 290.
Long. E. from Paris, ff*- 56*^ 11''.07. Schumachbr, il#/r. JYocAr.,
XXIU. 263.
N. Lat. 38* 53' 39".25. Astron. Joum., IH. 12.
Long. W. from Greenwich, as derived from data of the U. S. Coast
Survey, up to 1852, S**- 8"- 11\2.
Lieutenant Maurt uses 5''- 8"*- 10^.17. Astron. Joum.^Ul. 12.
The situation of the first, or provisional, Naval Observatory, in which
were made the observations published by Lieutenant Gilliss was,
N. Lat. 38* 53' 32".8. Gilliss, Astr. Ohs., p. viii.
Long. W. from Greenwich, 5"- 8"- 4'-.6. Ibid.^ p. x.
N. Lat. 54* 40' 59".l. Astr. Nachr., IV. 562.
Long. E. from Paris, h. m. ■.
WuRM from 22 occultations {Astr. Nachr.^ VIII. 96), 1 31 50.4
Steczkowski from 1 occultation {Astr. Naehr.^ XVI. 302), 48.3
Mean, 1 31 50.31
These results are arranged in the following Table for reference.
r
n
456
THE PBINCIPAL OBSERVATORIES.
N
N
POSITIONS OF THE PRINCIPAL OBSERVATORIES. !
(North Latitudes and West Longitudes are considered as positive.)
PbM^
UUtmto.
Longitude
In rune.
Longitude
(torn Wiehlngtoii
In Arc
Longitude
fromOreenwidilD
Ace
Abo,
_
^^ 26 66.8
h. m. •.
— 6 37 20.0
260'' 40' 0!6
337 42 48.6;
Altona,
-
-53 32 45.3
— 5 47 57.4
273 0 39.8
350 3 27.8
Athens,
.
-37 58 2a
-^ 6 43 6.4
259 13 24i{
336 16 12i2
Berlin,
.
-52 30 16.7
— 6 1 46.1
269 33 28.1
346 36 16.1
Bilk,
-
-51 12 25
— 5 35 16.1
276 10 58.1
353 13 46.1
Bonn,
.
[-50 43 45.0
— 5 36 35.7
275 51 5.1
352 53 53.1
Breslau,
.
-51 6 56.0
— 6 16 21.2
265 54 42.0
342 57 30.0
Brussels,
.
-50 51 10.7
— 5 25 38.8
278 35 18.0
355 38 6.0
Cambridge ^Eng.),
Cambridge (Mass.),
.
-52 12 51.8
— 5 8 34.7
282 51 18.9
359 54 6.9
.
-42 22 48.6
— 0 23 41.5
354 4 36.9
71 7 24.9
Cape of Good Hope,
—33 56 8
— 6 22 7.2
264 28 12.3
341 31 0.3
-
[-59 54 43.7
— 5 51 6.0
272 13 30.6
349 16 18.61
Cincinnati,
.
-39 5 54
+ 0 29 46.9
7 26 42.8
84 29 30.8;
Copenhagen,
-
[-55 40 53.0
— 5 58 30.5
270 22 22.5
347 25 10.5,
j Cracow,
.
-50 3 50,0
— 6 28 2.4
262 59 23.4
340 2 11.4
Dorpat,
.
-58 22 47.1
— 6 55 5.8
256 13 33.6
333 16 21.6'
Dublin,
-
-53 23 13
— 4 42 49.2
289 17 42.0
6 20 30.0
V
Durham,
-
-54 46 6.4
— 5 1 53.2
284 31 42.0
1 84 SO.Oi
Edinburgh,
.
-55 57 23.2
— 4 55 28.2
286 7 57.0
3 10 45.0,
\
.Florence,
.
-43 46 40.8
— 5 53 12.9
271 41 47.1
348 44 35.1'
^neva.
.
-46 11 58.8
— 5 32 48.9
276 47 46.8
353 50 34.81
G^ureetown,
-
-38 54 26.1
+ 0 0 6.2
0 1 83.0
77 4 21.0
Gottiogen,
-
-51 31 47.9
— 5 47 57.3
273 0 40.5
350 3 28.5
Gotha,
.
-50 56 5.2
— 5 51 6.9
272 13 17.1
349 16 5.1
Greenwich,
.
-51 28 38.2
— 6 8 11.2
282 57 12.0
0 0 0
Hamburg,
-
-53 33 7
— 5 48 4.8
272 58 48.6
350 1 36.6
Hudson,
-
-41 14 42.6
+ 0 17 32.1
4 23 0.9
81 25 48.9
Kasan,
.
-55 47 23.1
— 8 24 43.1
233 49 13.1
810 52 1.1
Konigsberg,
-
-54 42 50.4
— 6 30 11.6
262 27 6.6
339 29 54.6
Kremsmtinster,
.
-48 3 24.0
— 6 4 44.6
268 48 50.7
345 51 88.7
Leipsic,
-
-51 20 20.7
— 5 57 39.7
270 35 4.5
347 37 62.5
Leyden,
-
-52 9 28.2
— 5 26 8.6
278 27 50.6
355 80 38.6
Liverpool,
-
-53 24 47.8
— 4 56 11.1
285 57 13.7
8 0 1.7
London,
.
-51 31 29.8
— 5 7 34.1
283 6 28.5
0 9 16.5
Bladras,
-
-13 4 9.2
—10 29 8.2
202 42 57.0
279 45 45.0,
Mannheim,
-
-49 29 12.9
— 5 42 2.7
274 29 19.5
351 82 7.5l
Markree,
.
-54 10 31.7
— 4 34 22.8
291 24 18.0
8 27 6.0
Marseilles,
.
-43 17 49
— 5 29 40.2
277 34 57.2
354 87 45.2
Milan,
.
-45 28 0.7
— 5 44 57.8
273 45 32.4
350 48 20.4
Modena,
.
-44 38 52.8
— 6 51 55.2
272 1 12.5
319 4 0.5
*
Moscow,
-
1-55 45 19.8
— 7 38 28.5
245 22 52.7
322 25 40.7
i Munich,
.
-48 8 45
— 5 54 37.6
271 20 35.4
348 28 23.4
, Naples,
-
-40 51 46.6
— 6 5 12.1
268 41 58.1
345 44 46.1
Oxford,
.
-51 45 36.0
— 5 3 8.6
284 12 51.0
1 15 39.0
Padua,
.
-45 24 2.5
— 5 55 40.2
271 4 56.6
348 7 44.6;
Palermo,
-
-38 6 44
— 6 1 36.7
269 35 50.1
846 88 88.1
THE PRINCIPAL OBSERVATORIES.
457
Plac«.
Latitude.
LonrHude
from WMhingtoQ
in Time
Lonfftude
finom WMhiuftoa
in Arc
Longitude
from Greenwich
in Arc
Paramatta,
Paris,
St. Petersburg,
Philadelphia,
Prague,
Pulkowa,
Rome,
San Fernando,
Santiago,
Senftenberg,
Vienna,
Washington,
Wilna,
—33
.-48
.-59
--39
--50
.-59
--41
--36
—32
+50
--48
--38
--54
48 49.8
50 13.2
56 29.7
57 7.5
5 18.5
46 18.7
53 54
27 45
26 24.8
5 10.1
12 35.5
53 39.3
40 59.1
+8 47 42.6
—5
—7
— 0
—6
—7
—5
17 32.7
9 24.7
7 33.6
5 53.2
9 29.9
58 5.9
—4 43 22.1
— 0 25 52.3
—6 14 1.1
—6 13 43.7
—0 0 0
—6 49 23.0
131 55 38.3
280 36 50.1
252 38 49.8
358 6 35.4
268 31 42.6
252 37 31.9
270 28 31.5
289 9 29.1
353 31 55.5
266 29 43.1
266 34 4.1
0 0 0
257 39 15.5
208 58 2^.3
357 39 38.1
329 41 37.8
75 9 23.4
345 34 30.6
329 40 19.9
347 31 19.5
6 12 17.1
70 34 43.5
343 32 31.1
343 36 52.1
77 2 48.0
334 42 3.5
58
ON THE ARRANGEMENT AND USE OF THE TABLES
IN THIS EPHEMERIS.
This EphomerU is divided into two distiDct parts. One part is designed for the
special use of Navigators, and is adapted to the Meridian of Greenwich.
The other part is suited to the convenience of Astbonombrs, on this continent
particularly, and is adapted to the Meridian of Washington.
THE NAUTICAL PART.
This part contains the Ephemeris of the Sun and Moon ; the Distances of the
Moon from the centres of the Sun and the four most conspicuous Planets, and from
certain Fixed Stars ; the Ephemeris of the Planets Venus, Mars, Jupiter, and Saturn ;
and certain Tables to accompany a new and more correct method of clearing the
lunar distance ; which method, together with the Tables, is given in an appendix.
I%me, — Astronomers make use of three kinds of time. Sidereal Time, Mean Time,
and True or Apparent Time. As there is frequent occasion to pass from one to an*
other of these modes of reckoning time, the explanation of their nature, and of the
manner of doing this, properly precedes an explanation of the uses of the Ephemeris.
Sidereal Tinte is measured by the successive returns of the mean place of a star
to the meridian. These returns are precisely equal, and the mean daily motion of
the star is uniform ; or, in other words, the diurnal rotation of the earth on its axis is
strictly uniform.
The sidereal hours are counted from 0 to 24, commencing with the instant of the
passage of the vernal equinox over the superior meridian, and terminating with its
return to the same point The daily change, therefore, in the right ascension of the
vernal equinox caused by the motion of precession in right ascension, produces a dif*
ference between the length of the sidereal day thus adopted, and the true sidereal
or eUar day. But this change is annually about 50^', or S'-.S in time, so that the daily
change is less than O^'.Ol, and is wholly insensible.
T)rue or Apparent Tiwu is measured by the successive returns of the sun to the
meridian of the place of observation. The interval between these returns is called a
Solar Day, and the hour angle of the sun, or its distance from the meridian, is called
Solar Time. This is the most natural and direct measure of time. But the inters
vals between the successive returns of the sun to the meridian are nol exactly equal,
but depend upon the variable motion of the sun in right ascension.
USE OF THE TABLES. 459
The want of unifonnity in the sun's motion in right ascension arises from two dif-
ferent causes ; one, that the sun does not move in the equator, hut in the ecliptic ;
the other, that the sun's motion in the ecliptic is not uniform.
To avoid the irregularity in time caused hy the want of uniformity in the sun's
motion, a fictitious sun, called a Mean Sun^ is supposed to move in the equator with
a uniform velocity.
Mean T%me^ which is perfectly equable in its increase, is denoted by the motion of
this mean 5im ; the latter at certain periods agrees with the real sun, then again is
in advance of it, and at other times is behind it.
The difference between the true and mean time is called the Equation of Time^
which is always expressed in mean time. By means of it we pass from true to me€tn
time, or the reverse. Thus, if the true time be given, the mean time corresponding
to it will be obtained by adding or subtracting the equation of time according to the
precept at the head of the column in which it is found. If the mean time be given,
the true time is obtained by applying the equation of time in the sense opposite to
that directed by this precept. These transformations are algebraically expressed as
follows : —
mean time = true time -|- equation of time ;
true time = mean time — equation of time.
Day, — According to the customs of society, the hours are counted from 0 to 13
from noon to midnight, after which they are again reckoned from 0 to 12 from mid-
night to noon. The eivU day consists of twenty-four hours, but is divided in this
manner into two periods, commencing at midnight. In this respect it differs from
the astronomical day^ which commences at noon. The civil day comprises twenty-
four hours, from one midnight to the next following. The first period of twelve
hours is marked A. M., the last period of twelve hours is marked P. M. The astro-
nomical day also comprises twenty-four hours, but they are counted from 0 to 24,
and from the noon of one day to that of the next following.
The civil day begins twelve hours before the astronomical day; therefore the
first part of the civil day answers to the last part of the preceding astronomical day,
and the last part of the civil day to the first part of the same astronomical day.
Thus, January 10th, 2''* A. M., civil day, is' January 9th, 14*^, astronomical day ;
and January 9th, 2^* P. M., civil day, is also January 9th, 2^ , astronomical day.
The rule, then, for the transformation of the civil time into astronomical time, is
this : if the civil time is marked A. M., take one from the date, and add twelve to
the hours, and the result is the astronomical time wanted ; if the civil time is marked
P. M., take away the designation P. M., and the astronomical time is had without
further change.
The Nautical part of the Calendar is divided into twelve months, and to each
month is assigned sixteen pages, of which the contents are as follows : — -
Page L is devoted to the Ephemeris of the Sun ; it contains, first, the Apparent
Right Ascension and Declination of the sun at Greenwich apparent noon ; exclu*
sively, therefore, of the aberration.
460 USE OF THE TABLES.
T*he former of these quantities is used for finding the error of a clock regulated to
mean sidereal time. The difference between the time by the clock of the meridian
passage of the sun, and the sun^s right ascension reduced to mean noon, is the error
of the clock from mean sidereal time. It is also employed in determining the time
by the transit of a fixed star over the meridian, as is explained in page 223 of
BowDiTCH^s American Practical Navigator. The use of the sun^s declination in
finding the magnetic magnitude and azimuth, the latitude by altitudes of the sun in
and out of the meridian, the time, dsc., is also so cleariy defined in this standard
work, which is in the hands of all American seamen, that any further explanation in
this place is unnecessary. Adjoining the columns of Right Ascension and Dedina*
tion are the differences of these quantities for one hour (at midnight), by means of
which they may be calculated for any time out of the meridian, by multiplying this
difference by the hours and parts of hours from noon, and adding the amount to, or
subtracting it from, the quantity at noon, according as it is increasing or decreas*
ing. If, for example, the declination of the sun were required at 3^ 40** P. M., of
Thursday, January 18th, 1865, the declination of the sun would be taken out first for
January 18th, at noon, 28 8^ 54.8 S.
From which subtract the diff*. for 1 hour, 30".87, multiplied by 8, 1 82.6
20 34 22J2
And the proportional part for 40 minutes, 20.6
The result is the sun^s declination on the 18th, at 3^ 40** P. M., 20 34 1.6
The difference for one hour is not the same for every hour in the twenty*four ;
but being given in the pages of this ephemeris for the middle hour of the day, it is
sufficiently accurate for the purposes of the navigator.
The column of the Sun^s Semidiameter requires no explanation.
The column headed Sidereal Time of the Semidiameter passing the Meridian^ is
employed in obtaining the passage of the sun^s centre over the wires of a transit-
instrument when the passage of one limb only has been observed. If the western
limb has been observed, the quantity found in this column is to be added to the time
of transit over the middle wire, or the mean of the times of transits over all the
wires ; but if the eastern limb has been observed, the quantities in this column are to
be subtracted.
The next column contains the Equation of Time^ which, as has been before ex-
plained, is the number of minutes and seconds to be added to or subtracted fVom the
apparent time^ or the time given by an observation of the sun, to obtain the msmn
Ififie, or the time shown by a clock. The heading of the column directs the manner
in which the equation is to be applied, and where there is a change in the course of
the month from addition to subtraction, or the reverse, as in the months of April and
June, the two different directions are separated by a line, whUe a corresponding
line below points out the date at which the change takes place. The difference for
one hour is given in an adjoining column, by means of which the equation for any
time from noon is easily obtained. If, for example, the equatioo of time for January
16th, at 4^ 30^ P. M., were required, we should have
USE OF THE TABLES. 461
m. 9,
Equation for January 16, at noon, 9 58.59
Correction for 3''- 20'"- (additive), 2.88
Equation, January 16, at 3^' 30"* P. M., 10 1.47
Which, according to the rule at the head of the column, la to be added to tqfparetU
ihne to obtain mean time.
Page II. of the Nautical part contains the Moon's Semidiameter and Horizontal
Parallax for every noon and midnight. The former may be corrected for any time
between the dates for which it is given in the Ephemeris by means of Table XI. of
Bowditch's Navigator^ or simply by computing the proportional part.
This is readily done by considering that the semidiameter is given for every
twelve hours, that the difference, therefore, between any two successive semidiame*
tors corresponds to twelve hours, and that the difference required (or correction) is
that difference which corresponds to a time less than twelve hours. If, for example,
the moon's semidiameter were required for 6 o'clock, P. M. of the 1st of June, we
should evidently obtain the value 16^ 12''.4, which is half way between the values
corresponding to the noon and midnight of that day, as 6 P. M. is half way between
meridian and 12 P. M. Adjoining the columns containing the Moon's Horizontal
Parallax for noon and midnight, are columns giving the change which these quan-
tities undergo in one hour. The sign plus or minus (-|- or — ) is prefixed to
Uiese diflferences, showing whether they are additive or subtractive, or, in other
words, whether the Horizontal parallax is increasing or decreasing. In order to re-
duce the parallax to any time intermediate between those dates for which it is given
in the Ephemeris, the mode of proceeding is that which has been already explained
in the case of the equation of time. The Moon's Meridian Passage^ which is given
on this page to minutes and tenths of minutes, is also accompanied with a column
of differences for one hour, by means of which, having the longitude turned into
time, the time of the moon's meridian passage at any other place may be computed.
Or it may be more quickly derived from Bowditch's Table XYIII., by simple in-
s|>cction. The last column of this page contains the Age of the Moon, to tenths of
days, or the time elapsed since the preceding new moon. It requires no explanation.
The pages from III. to X. mclusive are taken up with the Moon's Right Ascen-
sion and Declination^ which are given for every hour of every day in the month,
and are accompanied with columns of differences for every minute of each hour.
The right ascension and declination of the moon change so rapidly, that, if they were
not given at frequent intervals, the moon would cease to be useful to the practical
navigator as a means of determining the latitude and time. These quantities are
wanted for Greenwich mean time, which is either taken directly from the face of a
well-regulated chronometer, or is obtained by applying the longitude, turned into time,
to the local time of the computer. They have only to be corrected for the minutes
and seconds of the time at Greenwich. Thus, if the right ascension and declination
of the moon were required for Tuesday, June f^ 10^* 20"*, we have only to add to
the right ascension for 10*"* as given in the Ephemeris, viz. 21**' 59"' 44''.88, the
product of the difference fpr one minute, 2^.3907, multiplied by 20, or 46^.61 ; the
462 USE OF THE TABLES.
result 18 22^' 0^* 31''.49, the moon^s right ascension for the given time. In the ease
of the moon^s declination for the same date, the correction for the twenty minutes
ahore the even hour is subtractive, because the declination is decreasing; thus,— -
Moon's declination for June 5^* 10^ 17 89* 17.8
Ck>rrection for 20"- is 261".7, or 4 21.7
Moon's declination for June &•• 10^ 20"- 17 34 56.1
The last page of the ri^t ascensions and declinations contains the Phase* of the
Moon, and the dates of the Moon's Perigee and Apogee^ or least and greatest dis-
tance from the earth.
The remaining six pages of the month are occupied by the Lunar Distances.
They are given in the same manner as in the British NaiUical AlmanaCf in order to
conform to the rules of Bowditch's Navigator. These tables contain the geocen-
tric distances of the centre of the moon from the sun, the larger planets, and certain
fixed stars, at intervals of three hours, beginning with the noon of each day. All
the distances that can be observed on the same day are grouped together under
that date, and the letters W. and E. are affixed to the name of the star or planet, to
indicate whether they are on the east or west side of the moon. The columns
are read from the left to the right, across both pages of the same opening. The
principle of determining the longitude by means of lunar distances consists in
this : that they furnish the navigator with the means of comparing his own time, on
board ship, with the time at the Greenwich Observatory. At the moment of observ-
ing a distance he notes the time by his own watch or chronometer, and by looking
into the Ephemeris he discovers what o'clock it is at Greenwich when the moon and
star are in the relative position with regard to each other which he has measured
with his sextant. But it will very rarely occur that the navigator's true distance^
that is, his observed distance cleared from the effects of refraction and lunar paral-
lax, will bd found in the Ephemeris. It will prove b most cases to be a quantity
l3ring between two given distances. He is obliged, therefore, to take the difference
between his own true distance and the one nearest to it in the pages of the Epheme-
ris, and to apply to the time standing over the latter a correction proportioned to
this difference. This is a case of the simple rule of three. Owing, however, to the
various denominations of space and time that enter into the question, it has been
found convenient to lessen the labor of the operation by putting between every two
successive distances given in the Ephemeris the proportional logarithm of their dif-
ference. This proportional logarithm is obtained by subtracting the logarithm of the
difference of the two distances from the logarithm of three hours (both quantities be-
ing reduced to seconds), because three hours is the interval of time between two suc-
cessive distances. '
On the Ist of February, at noon, the distance of the centre of the moon from the
star a Arietis, west of her, is 88^ 33' 33", and at 3 hours it is 9<r O' 40" ; the difference
between these two distances is 1^ 27' 7", or reduced to seconds is 5227", the loga-
rithm of ^hiqh, subtracted from the logarithm of throe hours, or 10600", gives for
USE OF THE TABLES. 463
the proportional logarithm of the difierence between the two distances 3152, as it is
in the column headed P. L. of Diff, If the calculated true distance were 89^ 14' 10",
that is, between the two given distances above mentioned, the corresponding correc-
tion of the time would be found as follows : —
Distance in the Ephemeris at Noon, 88 3^ 33
Calculated True Distance^ 89 14 10
Difierence, 40 37
Prop. log. in Ephemeris, 3152
Prop. log. of Difference, 6466
Prop. log. of l**- 23-- 6fiP- 3314 ;
and this time is to be added to the time at the head of the column in which the dis-
tance of the Ephemeris was found, which makes the time at Greenwich correspond-
ing to the true distance 1*** 23"** 55'*, aAemoon.
This method of getting the Greenwich time between two given times in the
Ephemeris rests upon the supposition, that the variation between one distance and
the next following is uniform and regular. But owing to the inequdities in the
moon's motion, this is not the case ; and it b, in consequence of this, necessary to
apply to the Greenwich time obtained by the preceding method a small correc-
tion.
This correction, due to the second differences in the moon's motion, is given in the
Table on page 67 of the Appendix, and is taken out and applied as follows.
The top of the Table is entered with the difierence between that proportional log
arithm of the Ephemeris which has already been used and the one next following,
and the side of the Table is entered with the time which has been added to that at the
head of the column of the Ephemeris, that is, the time given by the difference of the
proportional logarithms at the close of the preceding paragraph ; under the former,
and opposite the latter, will be found the correction, in seconds of time, to be added
to the time at Greenwich if the proportional logarithms are decreasing, but subtracted
if they are increasing.
The calendar pages extend to 193, and the remainder of the Nautical Part, from
page 194 to page 217, contains the Ephemeris of the four Planets Venus, Mars, Ju-
piter, and Saturn, employed either in lunar distances or in the determination of the
latitude or the time. The Ephemeris of the Planets consists of the apparent right
ascension at Greenwich mean noon and its variation for one hour, the apparent decli-
nation at the same dato and its variation for one hour, and the mean time of their
meridian passage ; and at the bottom of the page will be found the semidiameter and
horizontal parallax for every fifth day of the month. The hourly variations belong
to midnight of the day on which they were given. The mode of correcting by mean
of the hourly variation for any time from noon has already been explained.
The Solar Coordinates for Greenwich mean noon, which form the basis of the
Solar Ephemeris for that date, are added.
464 USE OF THE TABLES.
THE ASTRONOMICAL PART.
This part is adapted to the meridian of Washington.
Obliquity of the Ecliptic^ dus., p. 222. — On this page are given the apparent ob-
liquity, the equation of equinoxes in longitude and right ascension, the precession of
equinoxes in longitude, and the sun*s aberration and horizontal parallax, for every ten
days of the year ; at the bottom of the page will be found the mean obliquity for the
beginning of the year, the precession for the middle of the year, the logarithm of the
precession in a sidereal day, and the logarithm of the precession in a solar day. On
the same page, the mean longitude of the moon^s ascending node is also given for
every ten days, and at the bottom of the page its daily motion.
Fixed Stare. — The Logarithms il, B, C, D, for correcting the places of the
Fixed Stars, are given for the mean midnight of every day of the year, and the con-
stants of reduction for every five days. To these tables are added, Bbssbl^s formulas
of reduction, with Dr. Psteks's coefficients, and the notation of the catalogue of stars
of the British Association.
The mean places of 100 principal Fixed Stars on January 1, 18S5 ; the apparemi
places of a and d Ursa Minoris, at the time of the upper transit at Washington, for
every day of the year ; and the apparent places of the remaining principal stars for
every ten days ; together with a table giving the correction of 51 Cepbei, a Octantis,
and X Ursa Minoris, for terms of nutation involving 2 C,— -complete the subject of
the Fixed Stars.
Solar Ephemerie. — In the Solar Ephemeris, given for Washington mean and ap-
parent noon, the hourly motions in right ascension and declination are the roodons
at the instant of noon. Only the seconds of right ascension and declination are given
for apparent noon, the degrees and minutes being usually the same as for mean
noon. Where the change of a minute occurs, it is indicated by a colon (:).
The Moon Culminations^ and the Moon-adminaiing Stare^ are given in two dis-
tinct lists ; the first of which contains the transits of the moon, with the requisite date,
Ae sidereal date of the transit, and a column headed ^ No. of Star in following Cat.,*'
referring to the second list, in which are found, corresponding to the numbers in this
edumn and to the sidereal date, the name, magnitude, right ascension, and approxi-
mate declination of the stars that are to be used in connection with the moon cuhni*
The Ephemerie of the Moon^ which follows, and the MoonU Pkaeee^ require no
special observation. In the moon's ephemeris, as in that of the sun, the hourly mo-
tions belong to the instant for which they are given.
The ephemeris of the two interior planets is given for mean noon and the time of
transit ; and that of the exterior planets is given for sidereal noon and the time of
transit. The place of a planet for any number of minutes I, from the nearest noon
for which it is given, t being negative when the time precedes the noon, may be
computed by the formula.
Planet's R. A (or Dee.) = il -|- B < -H C ^,
USE OF THE TABLES. 465
in which il = R. A. (or Dec.) for the noon,
jB = the motion of R. A. (or Dec.) for 1 minute,
or, more exactly, = the factor of ^
C = the factor of ^ = factor for second difTerencea.
The Solar Coordinates are given for each mean noon and midnight, referred to
the apparent equinox and equator, and also to the mean equinox and equator, at the
beginning of the year. In the case of the rectangular coordinates, only the last four
decimals are given for the mean equinox and equator, and the first three places are
to be taken from the apparent equinox and equator. When a change of a unit b to
be made in the third place, it is indicated by a corresponding colon (:).
The Planetary Coordinates are given for days of the Julian Period, in order that
they may be a part of a connected series, and therefore more convenient for the con-
tinued computation of perturbations.
Eclipses, — The Tables of Data of the Solar Eclipses are adapted to computation
by the following formulas.*
Let 9 = the latitude of the place,
X = its western longitude from Washington^
log 6 = 8.9110835,
log (l_c») = 9.9971066,
sin 9' = e sin 9),
h = sec <ff cos 9,
Ir = (1 — e^) sec 9' sin 9),
a = A — A sin (/* — X),
5 = J? — £ Ir 4. H A cos (/* — X),
e==—C + Fk— GAcos(/i — X),
m ^ \/Tc.
If the instant for computation were correctly chosen at the time of beginning or
end of the eclipse, m would be exactly equal to a. If m is not equal to a, the instant
for a new computation, and which will be an approximation to the actual time of be-
ginning or end, may be found by adding to the preceding time of computation an
interval <, which may be obtained in seconds by the formulas,
log / = 1.86167,
log a = 1.3757,
a' = il' — /*' A cos (/* — X),
1/ z=B' + Hh sin (/* — X),
1000000 (m—o)^
^— a' — ^'cot^ *
and if ^ is taken of the same sign with a, it is a sufficiently near approximation to
the angle of contact from the north towards the east. The magnitude of the eclipse is
found by taking the difference (with regard to the signs) of ^ at the beginning and end
of the eclipse, and if this difference is denoted by 2 tf, the magnitude of the eclipse is
24.5 sin* ^ tf or 24.5 cos* ^ 6,
accordingly as tf is acute or obtuse.
59
466
USE OP THE TABLES.
The value of 0 may aim be oUaimed by Ae fomulas
tanx=-;^
and the expression of t may be changed to
« = 1000000. 5^. 2!i^;*.
d Bin $
The following is an example of the computatioa of the end of the Eclipse of May
15, for the Observatory at Upsala.
For Upsala, 9 = 5§ 5l 56.O *
X = — 94 41 42.0;
80 that log sin 9) = 9.9369333
log cos 9 = 9.7007521
log sin y =
8.8480168
log sec <p' =
0.0010811
logA=:
9.7018332
log* =
9.9351110
Assume 9"- 40"-, mean time Washington
, for the time of end at Upsala. We find
from the table for this time
'.
A
0.019157
log»
9.§333638
B
1.752579
loge
9.3848783
C
0.651802
Ioga»
9.6591211
iog£
9.9765040
log tan 1 f
9.7257572
logF
9.9751258
— A sin (^ — X)
0.438783
logG
9.5172232
a
0.457940
logH
9.5055227
m
0.456164
M
146» 68* 24".4
m — a
—0.001776
and (p — X)
240*40' 6".4
— /Acoe(,i — X)
17.98
log sin (m — X)
—9.9404167
A'
141.33
log cos (,. — X)
—9.6900745
il
159.25
log A sin (^ — X)
—9.6432499
H> A sin (^ — X) -
- 10.43
log A cos (/t — X)
—9.3919077
B>
60.54
log Cr A cos 0> — X)
—8.9091309
1/
40.13
logirAcos(/t — X)
—8.8974304
if
SS'O'
Iog£A
9.9116150
f
htfV
logF*
9.9102368
log cot ^
9.82899
— £i
—0.815859
log>'
1.60836
HAcosO. — X)
—0.078964
J'cotf
27.06
h
0.857756
« — Ceotf
133.19
Fk
0.813374
log («.-«)
—7.34944
— 0 A cos 0» — X)
0.081131
loslO'
6.00000
c
0.242593
log («'-«' cot f)
3.12130
logl
—1.13834
USE OF THE TABLES. 467
h. DL t.
Assumed time 9 40 0.0
t — 13.4
Washington mean time of end 9 39 46.6
6 18 46.8
Upsala mean time of end 15 58 33.4
The corrected values of the assumed time wUl always be used in making the sue*
cessive approximations, as long as any shall be thought necessary.
Ocadtations. — The pages 375 to 397 inclusive are taken up with Elements for
Facilitating the Calculation of Occultations of Planets and Stars hy the Moon,
These elements are given for all the stars, to the sixth magnitude inclusive, con-
tained in the British Association Catalogue, which can be occulted by the moon dur-
ing the year 1855.
The several columns of these pages contain, — 1. the date ; 2. the starts name;
3. the starts magnitude ; 4. the limiting parallels of visibility ; 5. Washington mean
time of the moon^s true conjunction with the star in right ascension ; 6. Washington
hour angle, in time, of the star at the time of true conjunction ; 7. coordinate q at
the time of true conjunction ; 8. hourly variation f^ of coordinate p ; 9. hourly
variation q' of coordinate q ; 10. logarithmic sine of the starts declination ; 11. loga-
rithmic cosine of the starts declination.
Designating the time of true conjunction by the usual symbol, <{ , we have, at
this time, T= <J, A = JZ, jp = 0, and q = Y, For any other time during the
occultation, we shall have T = 6 -4- (0» ^ = H -4- sidereal equivalent of (/),
p =. (t) p\ and q = Y-f- (0 ?'* ^^^ other elements are considered as constant
for the occultation.
In the prediction of an occultation for a particular place, the principal objects of
determination are, the instant of immersion^ or of the starts disappearance behind
the moon^s limb ; of emersion^ or of the starts reappearance ; and the points on the
moon^s border where these appearances take place.
The calculations are according to the method of the late Professor Bbssbl, whose
original paper on the subject may be found in Schumacheb^s Astronomische Nachrich"
teny Vol. Vn. p. 1 ; also in the Berliner Astronomisches Jdhrhuch for 1831, p. 257.
The process of computation is shown by the following equations : —
d = Longitude from Washington, of the place, -f- West, — East.
9 = Geographical North Latitude of the place.
(p' = Geocentric North Latitude of the place.
r = Earth^s radius at the place, or the dbtance of the observer's position from
the earth's centre.
It is unnecessaiy to calculate q/ and r separately, as we have
, (1 — ^ sin op , cosy
r sm 9' = .— o . Q \ r cos a' = .— » . ^ v
in which e denotes the eccentricity of the earth's meridians.
468
USE OF THE TABLES.
The logarithms of ^^^.^^- = log A, and of ^^^—^^^^ = log B.
derived from e = .081697, according to the latest determination of Professor Bbssbl,
may be taken from the following table, where the geographical latitude of the place
is the argument.
9
0
Log-^
Log.B
9.9971
0.0000
10
9.9971
0.0000
20
9.9973
0.0002 i
30
9.9975
0.0004'
40
9.9977
0.0006 i
50
9.9979
0.0009 1
60
9.9982
0.0011 1
70
9.9984
0.0013
r sin 9' = il sin ip
r cos f ' = jB cos 9
a=^ r cos Iff sin (A — d)
5 = r cos 9' cos (A — d)
log X = 9.4192
tt = a
V = r sin 9' cos i) — 5 sin i)
v' = aXsin B
m sin M =^ p — ti
HI cos M = q ^ V
n sin N=i j/ — uf
n cos iV = ^' — V*
log k = 9.4350
cos ^ = ^-r '
Q=90^ — iVqp^
« = — — cos (Af — iV) =F — — ^
Upper signs for Immersion ; under signs for Emersion.
esin C = ti-f-<t^
Meui solar time of the starts apparent contact with the moon^s limb
= T—d-ht
USE OF THE TABLES. 469
Angle from North Point = Q
Angle from Vertex = V
The angle ^ is to be taken out positive and less than 180^. If log m sin (3f — N)
be greater than log ir, cos ^ will * ervidently be greater than 1, or impossible^ and
there will be no occultationf except in some rare instances where the moon^s limb
passes very close to the star, when log cos ^ will result very near 0. In these
cases, a recalculation should be made according to the method which follows,
using
t= — — cos (M^N),
which may give log m sin (Af — N) less than log k^ when the star will be occulted.
On the other hand, it may happen that, in these cases of very near approach, a first
determination may give a cos ^ less than 1, which a recalculation will show to be
impossible. The angle ^ is then to be considered = (f when m sin {M — N) la
positive, and we shall have Q ^ 90** — N. When m sin {M — JV) is negative,
^ = 180% or Q = 90* — N^ 180*, = 270* — N. We shall also have, at the
time of nearest approach,
star's distance from moon's limb = ir (m sm {M — iV) — .2723),
in which «■ is the moon's horizontal parallax.
By Angle from North Point is to be understood the arc included between the
star when in contact, and the point where the limb is intersected by an arc of a
great circle passing from the moon's centre to the North Pole ; and by Angle from
Vertex^ the arc between the star at contact, and the point where the limb is inter-
sected by an arc of a great circle passing from the moon's centre to the zenith.
These angles are reckoned from the north point and from the vertex, towards the
West round the circumference of the moon's disc. For the image as seen in an
inverting telescope, add to them 180*.
The results obtedned by the above equations are only approximate, yet the com-
puted times of immersion and emersion will usually be within one or two minutes of
the truth. The error generally increases with the star's distance from the apparent
path of the moon's centre, and may, in some cases, amount to several minutes.
For an immersion, this error is not of much consequence ; but for an emersion,
especially of a small star, the time should be determined with greater precision. For
this purpose u' and v' must be computed with
h' — d=zh — d'hifi,
fi being the symbol by which we express the sidereal equivalent of t in these
equations.
vf =^ r cos qp' X cos {h' — d)
t>' = r cos 9' X sin (h' — d) sin D.
Then with these values of «' and v\ recompute JV, n, ^, and «, by means of
470 USE OF THE TABLES.
n Bin N=^ j/ — uf
n cos iV = ^ — 1>'
msin(Af— iV)
m
/ = — -co8(Af— J\r):F
lahrijr
n
using the M and m obtained by the first computation, and we shall hare the time of
contact T — d -4- <, generally within a few seconds of the truth.
As a check on the accuracy of the work, we might compute
II = r cos 9' sin (A — d -^ fi)
9 = r cos q/ cos i) — r COB 9' cos (A — d^ ^)
and we shouM hare
(p ^ ep' — t*)" -h (g -4- e ^ — r)' = A» = a0741.
But if m sin Jf , jn cos AT, log n sin iV, and log n cos iV, have been correctly com*
puted, we shall have the following shorter and more convenient check on the sub*
sequent calculations for the time of contact :
{msin M-^tn sin Nf -h (m cos AT -h < n cos iV)" = 1:* = 0.0741.
The elements of computation, H, Y, etc., are given for the instant of the moon^s
true conjunction with the star in right ascension. It is desirable, however, in com-
puting an occultation for a particular place, to assume a time for the calculation
near to the time of the nearest approach of the moon's centre to the star, as seen
at that place, and to reduce the elements to this assumed time. This time, for
which the nearest tenth of an hour will be sufficiently accurate, will not dififer
greatly from the time of apparent conjunction, as afifected by parallax, which may
be determined approximately by the following equations. Let T — d be the time
of apparent conjunction ; then
ii\ — 8in(g>-<0
^ ' f' sec 9> — [9.4037] 00s (if »iO
T—d= 6 —d-h(t).
Tke etomouti corresponding to the time T — d may then he obtained as foUows :
A — d= H—d-hM
Where occoltations are to be generally obeerved, as at astronomical stationt,
either temporary or permanent, the observer will find an advantage in looking
over the list and selecting, beforehand, all those which may be visible at hb station,
by observing if his latitude be included between the limiting parallels for any given
occultation, if the time (T — d) be favorable as regards the absence of daylight,
and if the starts bour^uagle (A — d) be not greater than its semidiurnal are for the
given latitiide.
USE OF THE TABLES. 471
For obtaining the time
T-d= 6 -d^(i),
it will be well to tabulate the values of
sin (fl^— d)
(0 =
V •ec 9 — [9.4027] cos -CT— d
for every half-hour of (H — d) as far as the greatest semidiurnal aic computed for
the latitude of the station with a declination of 80^ ; and for all values of j/^ using
two decimal figures, from 0.50 to 0.60.
It will also be found advantageous to have tabulated values of
ti =x r cos y' sin {h — d)
uf = r COB q>'X cos (A — d)
which fi^uld be given for every minute (in time) of (A — d), from 0**' to 6^'.
If (A — d) exceeds 6*^, the argument will be Ig*"- — (A — d) instead of (A — d).
It will be seen by the equations that ti will have the same sign as sin (A — d), and
that ti' win have the same sign as cos (A — d).
In the equation
t? = r sin 9' cos D — 5 sin 2>
the term r sin 9' cos D may be tabulated for every tenth minute of declination, from
0** to 30^
For a practical application of the preeedtng formulae, we will make the calcula-
tions for an occultation of ihe star 139 Tauri, January 1st, 1855, as it will appear at
Fort Nisqually, Oregon, in north latitude 4T* 7'.5 = 9, and west longitude from
Washington 3*** 3*" 27'* = d. The data for the computation are given on page 375,
and, with the latitude and longitude of the place^ are as follows :<—
Jan. 1. 139
Tauri, 5J.
7 +47'' ^.5 H —i
m. a.
44 10
pf 0.5512
. 5- »• d H-3
3 27
gf +0.0502
d ^3 3A ff_j _^^7 37
log sin D +9.6490
6 9^^ Y^
D.5860
logcofZ) +9.9519
1^4 6 16^
Calculation of the time, T — (2, and reduction of the elements of computation.
logp' +9.741
(1) -1.3
logaiDf +0.ie7
h. m. 1.
log p' see 9=* log(l) +9.908
(Rednoed to boars ssAarimitss) (t) -1 18
log constant 9.403
ifi) —1 18 13
VogcoaiE^d) +9.492
► log [9.403] cos (IT— d)=» log (2) +8.895
JJ— cf —4 47 37
JJ-cf+0*)x=
A — cf —# 5 50
(2) + .079
^ — <f 6 16.8
(1) + .809
6 -cf + (0 =
r— cf 4 58.8
(l)-(2)= (8) +.730
(0 p = — 13 X 0.5512 =a /» — .7166
log (3) +9.863
— 1.3 X 0.0602 =
Wfl* — X)653
log8in(-ff— d) —9.978
Y + .5860
^^dn<g-d)^ log (0-0.115
Y^(t)q'^
g + ^207
472
USE OF THE TABLES.
Calculation of the times of Lnmersion and Emenum^ etc.
(Tftble, page 469, Arg. f) log A 9.9978 riin f' cm D -»- 4»S7
log sin f +9.8650 & lin D ^ Mil
log J sin y as log r sin 5p' +9.8628 rsinf'GOfZ)^&sinI>HB v+ .6604
log COS Z) +9.9519 7 + .5207
log r sin 9>' cos Z) +9.8147 j — »« meotif — .1397
(Table, page 468, Aig. 9) log B OJOOQS p — .7166
log 008 9 +9.8328 a B 11 — .6816
logBcof^'sa logrcos9^ +9.8336 /> — iiaa Msinif^ .0350
log sin (A — <i) —9.9999 9^ + j0502
log r GOf 9' sin (A— (f) slog USB log a —9.8335 v' —4)798
log GOf (A — <0 —8.4057 qf^vf^ ncmN -h .1300
logrcoff'GOfCA- iQs log 6 —8.2393 pf + ^512
log X 9.4192 v' — .0046
logaA —9.2527 // — v^— iisiniV^ + .5558
log sin Z) +9.6490
log 6 sin Z) —7.8883 if m 4
logaAsinDs log v' —8.9017 N 76 50
log 61= logtt' —7.6585 M^N 117 14
log m sin if —8.5441 9(P^N 13 10
log m cos if —9.1458 yf 61 57
log tan if +9.3989 For Lnmenioo, 90P — iV— V » k 311 IS
logcofif —9.9868 (2) + .1155
log m +9.1584 (1) + .4209
log n sin i\r +9.7449 For Immenkm, (2) — (1) a. f| — .3054
log ncofi>r +9.1139 For Smeisioii, (2) + (1) a It + .5364
log tan i>r +0.6310 log U —9.4849
logsini>r +9.9884 logv' —7.6585
logfi +9.7565 log 1,11' +7.1434
— log 2 —9.4019 log** —8.9017
logcof (if— iST) —9.6605 log lit;* +8.3866
log sin {M—N) +9.9490 <i »* + /)244
logi 9.4350 v-htivf^ CC0fC + .684«
log? +9.7234 *«^ +•«>**
^ ^ tt + fiv'-Di csinC — .6802
log 2 iin (3f — N)^ log cof V' +9.6724 log c sin C —9.8326
logsin V' +9.9457 logccoe C +9J356
log ib sin y +9.3807 log tan C —9.9970
1 A»*n<' . . V
log-;;^— log(l) +9.6242 ^^
-log = co.(if-i^r)- logW+»^ (Bea^lolN«»«idmlaal«)^~i1-S?25
UfMMMMiOM: FortNuqmiify.MeemTmB, 7*— if + ti 4 403
(7 — 44 48
Immenion .iii^/v« .A^rtA Point BB Q 311 13
Immefsion AmgU/rom Vertex ■■Q+(7» Ft6625
h. Bl.
% +032J
^aMBMioM : fWt NieqMoUg, Mean Ihm, T^d-^ig 5 3li>
USE OF THE TABLES.
473
Calculation of a more accurate time, etc., of Emersum.
The emersion will take place on the moon's bright limb, and therefore be
The recalculation of this phase is merely for the purpose of illustration.
logc08(A'— rf) +8.6525
log r cos ^ +9.8336
log X 9.4192
log r cos y' 1 co» (A' — </) = log u' +7.9053
log sin (A' — d) —9.9996
log r cos y' A +9.2528
log sin D +9.6490
log r cos <f' lain {h* ^d) sin D ^ log v* —8.9014
log n sin iV^ +9.7350
logn cos N +9.1136
log tan N +0.6214
log sin N +9.9879
logn +9.7471
log IN +9.1584
— log^ —9.4113
log cos (A/ — iVT) —9.6646
log sin (if- AT) +9.9479
Sid. eqaiv. fbr i Is
A-c/ + 4^ =
7'-r' =
p* — «' =
From first determination,
From first determination,
log ^sin(if— i\0=.
log
k sin \
log^ +9.7234
log COS V +9.6713
log sin V; +9.9460
log k 9.4350
log k sin y/ +9.3810
log(0 +9.6339
From first determination,
m cos if + n f cos N=s
From first determination,
m sin J/ + n f sin N^^
(4)« + (3)« = ife« = 0.0741,
— log ^ cos (If- iyo =
(2) + (1) -
From first determination,
For Emersion, 90* — iV + ^
log (2)
(2)
0)
t
M
N
90»-Ar
+9i)759
+ .1191
+ .4304
+ .5495
O I
194 4
76 33
117 31
13 27
62 1
75 28
From first determination,
From first determination,
II + I tt' s=
kf — d
ncos N
n sin N
logt
log n sin N
log tnain N
logncos N
logtnco9 N
tncosN
m cos if
(3)
/ n sin JV^
IN sin if
(4)
(4)»
(3)«
Check
logtt'
log I tt'
logp'
logf v*
tv'
V
ccos C
lu'
tf
csin C
log c sin C
log c cos C
log tan C
Embrsioic : Fort Nisqual^, Mean Time,
T^d
(Reduced to hours and minates), I
T^d-ht
Emersion AngU/rom North Point « .
Emersion Atu/UJrom Vertex a Q + Cs
C '
V
useless.
h. m ■.
—6 550
+ 16 8
—5 49 42
+ .0502
— .0797
+ .1299
+ .5512
+ X)080
+ .5432
+ 9.7400
+ 9.7350
+ 9.4750
+ 9.1136
+ 8.8536
+ .0714
— .1397
.0683
+ .2985
— .0350
.2635
.0694
.0047
.0741
+ 7.9053
+ 7.6453
— 8.9014
— 8.6414
— .0438
+ .6604
+ .6166
+ X)044
— .6816
— .6772
— 9.8307
+ 9.7900
— 0.0407
h. m.
4 58.8
+ 0 33.0
5 31.8
o I
47 41
75 28
27 47
Pages 398 and 399 contain a list of such Occultations as will be visible at Wash-
ington, during the year 1855.
60
474 USE OF THE TABLES.
The Tables of Jupiier*8 Satellites embrace^ —
A list of the occultations, eclipses, transits, and transits of shadows, in the order
of the time of the occurrence of the phenomena for the satellites taken promis-
cuously. They are given for every month, accompanied with a diagram, con-
structed for the eclipse which occurs nearest the middle of the month, showing the
phases of the eclipses for an inverting telescope.
A table containing the mean time of the geocentric superior conjunction, and the
rectangular coordinates of the satellites corresponding to the time from the next pre-
ceding superior conjunction, at intervals of twenty minutes for the first satellite,
of forty minutes for the second, of one hour and twenty minutes for the third, and
of three hours for the fourth satellite. They are also given for the time of eclipse
for the first, second, and third satellites at intervals of seven days, and the fourth for
every eclipse. They enable the astronomer to obtain the configurations at all times.
They are given in seconds of arc.
The coordinates have their origin in the centre of the primary, and are referred
to the major and minor axes of the apparent ellipse described by the path of the
satellite.
The major axis of this ellipse is constant, for the earth^s mean place ; but the
minor axis takes all values from the positive and negative maxima to zero, owing to
the changes in the earth^s elevation above the plane of the satellite's orbit
The values in the table correspond to the maximum value of the conjugate axis as
seen from the sun or that of the mean maximum for the earth (which b a constant
value). Factors are given in an adjoining column, at intervals of seven days for the
first, second, and third satellites, and seventeen days for the fourth, to reduce the
above values to those corresponding to the axis for the time being ; also for the
same intervals, the angle of inclination of the northern semi-minor axis to the circle
of declination.
X is positive af\er superior conjunction, or on the west side of the planet, negative
af\er superior conjunction, or on the east side, y will be positive north, negative
south. The eclipses, occultations, dc.c. of the satellites, visible at Washington, that
is, those which occur when the sun is 8** below, and Jupiter 8* above, the horizon,
are distinguished by a W. placed af\er the name of the phase.
The Appendix contains an article on the construction of this work.
It also contains tables of reduction from the equator to the ecliptic and the reverse ;
a general table for the Libration of the Moon, constructed by means of the formulas
on page 906, and furnishing the values to be employed in the computation of the
moon's libration in latitude and longitude (see page 906) ; and a table showing the
moon's mean motion in longitude for sidereal intervals of time, carried out to tens of
seconds.
Professor Chauvenst's Method of Correcting Lunar Distances, and the corre-
sponding tables, are given in the Appendix ; and, finally, the Ephemeris of Neptune
for the year 1853.
APPENDIX.
CONSTRUCTION OF THE ASTRONOMICAL AND
NAUTICAL EPHEMERIDES FOR 1855.
The precession of the equinoxes adopted in this volume is taken from Stbttye and
Peters ; • it is.
Precession = 50"iMll -4- (F.0002268«
in which t is the number of years af\er 1800.
The mean obliquity of the ecliptic is also taken from Strttve and Peters, and its
value is,f
Obliquity = 23*' 27' 54".22 — 0".4645 1 — 0".0000014 ^.
The constant of aberration is that of M. Struve, and is4
Aberration = 20".4451 ± 0".0111.
The nutation of the apparent obliquity and the equation of the equinoxes are
computed from Dr. Petees's formulce given in his Nmnerus Constans Nutationts, §
making Q = the mean longitude of the moon^s ascending node,
C == the moon^s longitude,
O = the sun's true longitude,
r' = the mean longitude of the moon's perigee,
r = the mean longitude of the sun's perigee.
The nutation of the obliquity = e =
For 1800. For 1900.
S.2231 cos Q $.2240 cos Q
— 0.0807 cos 2 a — 0.0896 cos 2 Q
-I- 0.0886 cos 2 C ^^-f-a0885cos 2 <L
+ 0.0181 cos (2 <r —Q)
— 0.0067 cos (2 O — 8)
-f-0.0113co8(3<C — r)
* PsTBS9*8 Numenm (hn§Um$ Nvtationis^ p. 71.
t Ibid., pp. 66 and 71.
I Stbute's Comtant de VAbenraHcn^ p. 47.
4 Pbtbra^s Nwnenu Gmatam Nuiationu^ pp. 46 - 48.
1
APPENDIX.
—6.0050 cos (<r -j-r)
— 0.0031 cos (C + 8 — r')
-(-0.0030 COS (<C — Q — r')
—0.0010 COS (<r — a + r')
— 0.0024 008(21^-0)
+ 0.0023 COS (3 C —20 + l-)^
-I- 0.0023 sin r
-0.0008 008 21^
— 0.0011 cos (C + 2 0 — r')
+ 0.0012 cos (4 C —21^)
+ 0.0014 cos (4 C —20)
For 1800. For 1900.
+ d.5510 cos 2 0 + 6.5507 cos 2 0
+ 0.0093 cos (0 + r) + 0.0092 cos (0 + r)
+ 0.0027 cos (3 0—1^) + 0.0027 cos (3 0 — 1^ ;
The equation of equinoxes = ^ =
For 1800. For 1900.
— 17'.2405 sin Q — 17.2577 sin Q
+ 0.2073 sin 2 Q + 0.2078 sin 2 8
— 6.2041 sin2<C
+ 0.0677 sin (C — r')
— 0.0339 sin (2 C —Q)
+ 0.0125 sin (2 0—8)
— 0.0261 sin (3 C —r)
+ 0.0115 sin (C +1'')
+ 0.0150 sin (C — 2 0 + r)
+ 0.0058 sin (C + 8 — r)
+ 0.0057 sin (C — 8 — r')
+ 0.0020 sin (<C — 8 + r')
+ 0.0044 sin (21^ — 8)
+ 0.0061 8in(2C —2 0)
— 0.0052 sin (3 C — 2 0 + r')
+ 0.0053 sin (2 0 — 21^)
+ 0.0026 cog p
+ 0.0020 sin 21^
+ 0.0025 sin (<r + 2 0 — r')
+ 0.0028 sin (2 <C —21^)
+ 0.0024 sin (2 <C —2 8)
.— 0.0024 sin (2 0—2 8)
— 0.0028 sin (4 C —21^)
— 0.0033 sin (4 <r —2 0)
2
CONSTRUCTION OF THE ALMANAC.
For 1800. For 1900.
— 1.2694 sin 2 O — 12695 sin 2 ©
+ 0.1279 sin (O — r) -|- 0.1275 sin (© — r)
— 0.0213 sin (O + r)
— 0.0058 sin (3 © — r)
— 0.0005 sin (2 © — 2 r) j.
The mean places of the fixed stars have been taken from Airt^s Greenwich
Twelve Year Catalogue of 2156 stars, and from the Catalogue of the British Asso-
ciatron.
The apparent places of the fixed stars have been obtained by the following trans-
formation of Dr. Petebs's formulae • by means of a set of tables constructed and
printed in the office of this work from the following formulte, in which
a = the starts mean right ascension at origin of time,
d = its mean declination at the same time,
a' = its apparent right ascension at the time r,
d' = its apparent declination at the time r,
/i = its proper motion in right ascension,
ft,* = its proper motion in declination,
p = the starts north polar distance.
/. (a) = 8.0454 sin (— Q + a).
— 1.1782 sin (—20— a).
— 0.0859 sin (— 2 a + a).
+ 0.0037 sin (—2a— a).
-i- 0.0250 sin (© -f a -I- 79** 18'.6).
+ 0.0339 sin (© — « -|- 84** 58'.3).
— 0.5280 sin (2 © — a).
+ 0.0227 sin (2 © + a).
whence,
y — ft = r n cos a-\' T fi' -|-/. (a).
— 10".2226 sin $ [sin (© -f ;>) -f sin (© — jp + 180*)].
— 10".2226 sin »J $ [sin (© + a + jp) + sin (© -|- a — p)].
— 10".2226 cos V [sin (© — a -f ;>) + sin (© — a — p)].
«' — a = r (m + n sin a tan d) -I- r /i +/. (a — 90*) tan «.
— 2 sec « [10".2226 sin ''J ^ sin (© + a 90) -|- 10".2226 cos «! ^sin (© — a
+ 90*)].
— 15".8234 sin a + 0^.1903 sin 2 a*
+ 0".1171 sin (© — r) — 0".0193 sin (© + r) — 1".1643 sin 2 ©.
The omitted terms of d' — d are
* Pbtbrs^s Numenu Ccmttan* NuUMtionU, pp. 73, 74.
3
APPENDIX.
-f- 0".0270 cos a sin (<C — r').
— (V'.OOOOT? sin 2 a tan d sin 2 Q.
— {(y'.OWmS + O'^OOOOSO cos 2 a) tan a oos 2 Q ;
and those of a' — a are
— (0".1872 + 0".0813 sin a tan d) sin 2 C.
— 0".0886 cos a tan d cos 2 C .
+ (0".0621 + 0.0270 sin a tan d) sin (C — r').
4- 0''.000154 cos 2 a tan a* sin 2 Q.
— 0".000160 sin 2 a tan «• cos 2 Q.
To preserve and extend their usefulness, the Moon-culminating Stare of the Brit-
ish Nautical Almanac have been adopted.
The Ephemeris of the Sun is constructed from Carlini^s tables with Bessel^s
improvements. In the computation of the Sun's Geocentric Coordinates, regard has
been had to the sun's latitude ; the computation has been made by means of the foU
lowing formulae.
By putting .r = the sun's radius vector
X = r cos O,
Y = r sin O cos c — r i sin 1" sin c,
Z = r sin O sin f -(- r i sin 1" cos c .
Professor Encke's discussion of the Transits of Venus in 1761 and 1769, in his
Der Venuadurchgang von 1769, dc.c., has furnished the standard
Equatorial Horizontal Parallax at the Earth's Mean Distance = 6".5776.
The Greenwich observations have given
The Semidiameter of the Sun at the Earth's Mean Distance = 16' 2".
The Ephemeris of the Moon has been constructed from the Tables used by Airt
in the Reduction of the Greenwich Lunar Observations, with those modifications
given by him in his paper on the Corrections of the Elements of the Moon*s Orbit,
6Lc.y in the seventeenth volume of the Memoirs of the Royal Astronomical Society.
From these materials an entirely new set of Tables was first constructed, so ar-
ranged that in all of them the arguments should be expressed in days and fractions
of days. This arrangement possessed the advantage of being less liable to error in
the easy passage from the argument of one day to that of the following day, avoid-
ing the necessity of writing down the new argument, except where it passed from the
end to the beginning of the Table, and by the fraction for proportional parts remain-
ing unchanged for a long interval of time.
Airy's Tables, it should be observed, although formally derived from Danoiseait,
are substantially a development of Plana's theory, and in the discussion of the
observations in his Memoir he has introduced the eflect of the two great inequalities
caused by the disturbing force of Venus, which were discovered by Hansen.
In the Tables used in this office, therefore, are combined Plana's theory, Han-
1
CONSTRUCTION OF THE ALMANAC.
SBN^s inequalities, AntT*s corrections of the lunar elements, and Hansbn^s secular
changes of the moon^s mean motion and of the motion of the lunar perigee.
But in addition to this, aAer the Ephcmens for the present year was almost
wholly completed, the following empirical corrections of Plana^s formula for the
Moon^s Longitude were received from Mr. Miers Fisher Longstrsth, of Philadel-
phia, and notwithstanding the consequent labor and delay, the corresponding changes
of the Ephemeris were computed and applied.
By putting a? = the moon^s mean anomaly,
2 = the sun^s mean anomaly,
t = (the moon> — the sun^s) mean longitude,
jf = the mean longitude of the moon counted from the node,
Lonostesth's corrections of the Moon^s Longitude
= l6 sin (2 t — 2 ar + z)
+ 1.4 sin (2 / — 2 » — «)
-j- 2.2 sin (x — 2 y)
— 8.4 sin {4t — 2x)
— 2.4 sin (2 I + 2 y)
— 2.8 sin (2 / — « — z)
— 1.4 sin (2 « + z)
+ 1.1 sin (« + z)
+ 1.0 sin (4 / + x)
+ 1.8 sin (4 < — 2 « — z)
-j- 0.5 sin (2 < — X — 2 y).
The complete lunar formulsB will be found in the Tables of the Moon, prepared
and printed for the use of the Nautical Almanac.
The semidiameter of the moon, at the earth^s mean distance, is taken to be ^ ^
part greater than that given by Bi7rckhardt, although that given by Bueckhaedt is
probably better adapted to the computation of eclipses and occultations.
The Ephemeris of Mercury has been constructed from the theory of Lb Veeeibe,
publbhed in the Additions to the Connaissance des Temps for 1848, without any
alteration. Manuscript Tables have been computed from Lb Vbeeibe^s formulse for
this purpose, by Professor Winlock.
The Ephemeris of Venus has been derived from manuscript Tables, constructed
from LiNDENAU^s Tables, in a form similar to that adopted for the Lunar Tables ;
applying Aibt^s Long Equation and the corrections proceeding from the discussion,
by the method of Least Squares, of Bir. Hugh Beeen^s results contained in his
paper on the Corrections of Linden au^s Elements of the Orbit of Venus^ d&c., pub*
lished in the Memoirs of the Royal Astronomical Society^ Vol. XVHI. ; and adopting
the secular variations of the elements from Lb Vbeeiee's Memoir on the Determina*
tion of the Secular Inequalities of the Planets^ which appeared in the Connaissance
des Temps for the year 1841.
The following are the corresponding corrections of the elements for 1855 : —
61 5
APPENDIX.
corr. mean distance = — 0.0001
corr. mean long, for Jan. 1, 1855 = — 1".3
corr. mean motion = — 0".052
corr. eccentricity = -|-0.00008721
corr. long, of per. ^ -|-411".l
corr. long, of node = 4-72''«0
corr. inclination ^ 4~^'*^*
The Ephemeris of Mars has been derived from manuscript Tables constructed
from LiNDENAU^s Tables in the same manner as the Tables of Venus. Mr. Hugh
Brben^s results contained in his paper On the Corrections of Limdbmau^s Elements
of Mars^ published in the Memoirs of the Royal Astronomical Society^ Vol. XX.,
have also been discussed and applied ; and Lb Vbrribr^s secular variations of the
elements have likewise been adopted.
The following are the corresponding corrections of the elements for 1855: —
corr. mean distance = ^0.000004531
corr. mean motion = -|-0".04795
corr. mean long, for Jan. 1, 1855 = -|-4".83
corr. eccentricity = -fO.000005718
corr. long, of per. = -j-^"-®!
corr. long, of node = 4-201".8
corr. inclination = — 4".0.
The Ephemeris of Jupiter has been derived from manuscript Tables constructed
from BouvARD^s Tables, with such changes as were required to make them corre-
spond more nearly to the formulae.
The Ephemeris of Saturn has also been derived from manuscript Tables con-
structed from the Tables of Bouvard, with changes having the same object The
mass of Jupiter given by Bbssbl has been adopted and used.
This mass = 1047^979 ^ o.235 ^^^® ^'^ '"^•
The Ephemeris of Uranus has been derived from the elliptical portion of Bou-
VARD^s Tables, with Lb Verrier^s corrections and perturbations caused by Jupiter
and Saturn, contained in his Recherches sur les Mouvements de la PUmkte Herschel
{dite Uranus)^ published in the Connaissance des Temps for 1849, and also Pbircb^s
corrections and perturbations arising from the influence of Neptune.
The combined corrections of the elements deduced by Pbibob are as foUowt : ^
corr. mean distance = -|-0.000942
corr. mean motion = — rM3560
corr. eccentricity == —0.0003626
corr. long, of per. = -|-8252".4
corr. long, of epoch = 4-^'75".4.
The Ephemeris of Neptune has been derived from Pbiicb^s theory and Wauom^b
orbit
6
CONSTRUCTION OF THE ALMANAC.
Log. Dial.
Mercury
3.34
0.00
Venus
8.546 zt 0.066
0.00 1
Mars
2.842 ±0.057
0.25
Jupiter
19.19 ±0.067
0.70
Saturn .
8.77 ±0.039
0.95
Uranus
1.68 ±0.3
1.30 J
The eclipses and elongations of Jupiter^s Satellites have been computed from
Dauoisbau^s Tables.
The vertical semidiameters of the Planets have been computed from the following
values : —
Authoritr.
Lb Verrier, Theory of Mercury,
Peirce, from the Washington Ob-
servations of 1845 and 1846,
made with the mural circle.
To correspond to the apparent semidiameters observed with the Washington mural
circle, all the semidiameters, except those of Mercury, computed from these values,
must be increased by a constant quantity = 0".57.
The apparent elements of Satum^s Rings have been computed from Bessel^s
data, except those for Bond's dusky ring.
The elements of the eclipse are adapted to the neat and simple modification of
Bessel's formulas, suggested by T. Henry Safford, Jr.
The elements adapted to Bessel's formuls are given for all occultations of stars
greater than those of the sixth magnitude.
The Heliocentric Coordinates of the Planets are given for the computation of per-
turbations, and the following are the values of the masses, that of the sun being
unity : —
Enckb, a. N., No. 443.
Lb Vbrbier, T%ior. de Merc.j p. 116.
Lb Verrier, ThSor. de MerCy p. 26.
Burckhaedt, Conn, des Temps^ 1816, p. 343.
Bessel, Der Masse des Jvpiter^ p. 64.
Bessel, Comptes Rendus^ 1841.
Lamont, Mem, Ast, Soc, VoU XI. p. 54.
Peiece, Am. Ae. Proe.^ Vol. I. p. 333.
The intervals of original computation have in all cases been made sufficiently
small to authorize the use of the diflerences as a check of the accuracy of the work.
The results have also been tested, in various portions, by means of duplicate com-
7
Mercury
4865761
Venus
1
iSQoood
The Earth
1
354936
Mars
1
S660637
fi,nif/kw
1
J«P»ter io47.g79± 0.335
Saturn
1
3501.6
Uranus
1
S4006
Neptune
1
iR7fin
APPENDIX.
putatioDS. The proofs from the stereotype plates have been thoroughly examinee! by
an independent series of differences, and it is believed that, in eveiy respect, that
system has been adopted in which accuracy was most likely to be secured.
The principal computations of the Ephemeris have been distributed in the follow-
ing manner.
The Sun has been computed under the direction of Professor Psirce. The Moon,
with the Culminations and Lunar Distances, has been divided between Mr. Schu-
bert, Mr. RuMKLE, and Mr. Van Vlsck. Mercuiy has been computed by Profes-
sor WiNLOcK, Venus by Miss Mitchell, Blars by Professor Peihce, Jupiter by Pro-
fessor Kendall, Saturn by Mr. Downbs, Uranus by Professor Peibce, and Neptune
by Mr. Sears C. Walker. The Fixed Stars have been computed by Mr. Spraoue,
the General Constants for Reduction by Professor Peirce, and the Occultations by
Mr. DowiiES. The Tkble of Geographical Positions of the Principal Observatories
has been prepared by Dr. B. A. Gould. The Table of General Geographical Posi-
tions will be completed in time to appear in the next volume.
ECtUATOR TO ECLIPTIC.
TABLE FOB CHANGING LATITUDE AND LONGITUDE TO BIGHT A8CEN- |
SION AND DECLINATION, OB THE BEVEBSE.
h
h
A
a
DUE
Lof. a
Dlfi:
6
Log.6
B
Ditr.
h
h
h.m.
0 0
0 6.0
0.3981
1
9.6000
1
0.9178
9.9626
O 1
0 0.0
263
h. m.
12 0
1&
0 4
0 5.4
0.3980
2
9.5999
2
0.9174
9.9626
0 26.0
26.1
11 56
179
0 8
0 10.8
0.3978
3
93997
3
0.9175
9.9626
0 52.1
263
11 52
178
0 12
0 16.2
0.3975
4
93994
5
0.9176
93627
1 18.1
253
11 48
177
0 16
0 21.5
0.3971
5
93989
6
0.9178
93627
1 44.0
253
11 44
176
0 20
0 26.9
0.3966
7
93983
7
0.9180
9.9628
2 93
253
11 40
175
0 24
0 32.2
0.3959
8
93976
9
0.9183
9.9630
2 85.8
253
11 86
174
0 28
0 37.4
0^951
9
93967
10
0.9186
9.9631
3 13
253
11 32
173
0 32
0 42.6
0.3942
10
93957
11
0.9190
93633
3 27.4
253
11 28
172
0 36
0 47.7
0.3932
13
9.5946
13
03195
93635
3 53.0
253
11 24
171
040
0 52.8
0.3920
18
93933
14
0.9200
9.9638
4 183
25.4
U 20
170
0 44
0 57.8
0.3907
13
93919
15
0.9205
9.9640
4 44.0
253
11 16
169
0 48
1 2.7
0.3894
15
93904
17
0.9211
9.9643
5 93
253
11 12
168
0 52
1 7.5
0.3879
16
93887
18
0.9217
9.9646
5 343
25.1
11 8
167
0 56
1 12.8
0.3863
17
93869
20
03224
9.9649
5 593
24.9
11 4
166
1 0
1 17.0
0.3846
19
93849
21
03231
9.9652
6 243
243
11 0
165
1 4
1 %\Jb
0.3827
20
93828
22
0.9239
9.9656
6 493
243
10 56
164
1 8
1 25.9
0.3807
21
93806
24
0.9247
9.9660
7 133
24.4
10 52
163
1 12
1 30.2
0.3786
22
93782
25
03256
9.9664
7 383
24.2
10 48
162
1 16
1 34.4
0.3764
23
93757
27
03265
9.9668
8 23
243
10 44
161
20
1 20
1 38.5
0.3741
24
93730
29
03274
9.9673
8 263
233
10 40
160
21
1 24
1 42.4
0.3717
26
93701
30
0.9284
99677
8 50.4
233
10 36
159
22
1 28
1 46.2
0.3691
27
93671
31
03294
93682
9 14.0
23.4
10 32
158
23
1 32
1 49.9
0.3664
27
93640
33
0.9304
9.9687
9 37.4
23.2
10 28
157
24
1 36
1 53.4
0.3637
29
93607
35
0.9315
9.9692
10 03
223
10 24
156
25
1 40
1 56.7
0.3608
30
93572
86
03326
9.9697
10 S33
22.7
10 20
155
26
1 44
1 59.9
0.3578
31
93536
38
0.9338
93703
10 46.2
223
10 16
154
27
I 48
2 2.9
0.3547
32
9.5498
89
0.9350
93708
11 8.7
22.2
10 12
153
28
1 52
2 5.8
0JS515
83
9.5459
41
0.9362
9.9714
11 303
213
10 8
152
29
1 56
2 8.5
0.3482
34
93418
43
0.9374
.9.9719
11 523
21.7
10 4
151
30
2 0
2 11.1
0.3448
35
9.5375
45
0.9387
93725
12 143
21.4
IQ 0
150
81
2 4
2 13.5
0.3413
37
93330
46
0.9400
93731
12 353
21.1
9 56
149
82
2 8
2 15.7
03376
38
93284
48
0.9413
93737
12 57.0
203
9 52
148
33
2 12
2 17.7
0.3338
38
93236
51
0.9426
93743
13 173
20.6
9 48
147
34
2 16
2 19.6
03300
39
93185
52
0.9440
93750
13 38.4
20.2
9 44
146
35
2 20
2 21.3
03261
40
93133
54
0.9453
93756
13 583
203
9 40 145 II
86
2 24
2 22.8
03221
41
93079
56
0.9467
93762
14 183
193
9 36
144
87
2 28
2 24.1
03180
43
93023
58
0.9481
93768
14 383
193
9 32
143
88
2 32
2 25.2
03187
44
9.4965
60
0.9495
93775
14 573
193
9 28
142
39
2 36
2 26.2
03093
44
9.4905
63
0.9509
99781
15 163
183
9 29
141
40
2 40
2 27.0
03049
45
9.4842
65
03524
93788
15 35.1
184
9 20
140
41
2 44
2 27.6
03004
46
9.4777
67
03538
9.9794
15 533
183
9 16
139
42
2 48
2 28.0
0J958
47
9.4710
69
03552
9.9801
16 113
17.7
9 12
138
43
2 52
2 28.2
0J911
47
9.4641
72
03566
93807
16 293
173
9 8
137
44
2 56
2 28.2
0.2864
49
9.4569
74
03581
9.9814
16 463
173
9 4
136
45
3 0
2 28.1
0.2815
50
9.4495
78
03595
93820
17 33
16.7
9 0
135
46
3 4
2 27.8
0.2765
50
9.4417
80
0.9610
93827
17 203
163
8 56
134
47
3 8
2 27.3
0.2715
51
9.4337
82
0.9625
93834
17 363
153
8 52
133
48
3 12
2 26.6
0.2664
52
9.4255
86
03639
93840
17 52.4
153
8 48
132
49
3 16
2 25.8
0.2612
53
9.4169
89
03653
93847
18 8.0
153
8 44
131
50
3 20
2 24.8
0.2559
54
9.4080
92
0.9667
93853
18 233
143
8 40
130
51
3 24
2 23.6
0.2505
54
93988
95
0.9681
93859
18 383
143
8 36
129
52
3 28
2 22.2
0.2451
55
93893
99
0.9695
93865
18 52.7
143
8 32
128
53
3 32
2 20.7
0.2396
56
93794
102
0.9709
93872
19 63
133
8 28
127
54
3 36
2 19.0
0.2340
57
93692
106
03722
93878
19 20.7
13.4
8 24
126
55
^. — i
3 40
2 17.1
0.2283
57
93586
111
03736
93884
19 34.1
13.1
8 20
125
ECtUATOR TO ECLIPTIC.
■
TABLE FOB CHANGING LATITUDE AND LONGITUDE TO BIGHT ASCEN-
SIGN AND DECLINATION, OB THE BEVEBSE.
k
k
A
a
Diff
Lof.a
DifC
b
Lof.6
B
Difl:
k
k
o
56
h. m.
3 44
Siii
0.2226
58
9.3475
114
0.9749
9.9890
l§Aij2
12.7
h. m.
8 16
o
124
57
3 48
2 13.0
0.2168
59
93361
119
0.9762
9.9895
19 59.9
12.3
8 11
123
58
3 52
2 10.7
0.2109
59
9.3242
124
0.9775
9.9901
20 12.2
12.0
8 8
122
59
3 56
2 8.2
0.2050
60
9.3118
129
0.9788
9.9907
20 24.2
11.6
8 4
121 .
60
4 0
2 5.6
0.1990
60
9.2989
134
0.9800
9.9912
20 35.8
11.2
8 0
120,
61
4 4
2 2.8
0.1930
61
9.2855
139
0.9812
9.9918
20 47.0
10.9
7 56
119
62
4 8
1 59.9
0.1896
62
9.2716
146
0.9824
9.9923
20 57.9
104
7 52
118
63
4 12
1 56.9
0.1807
62
9.2570
152
0.9836
9.9928
21 8JS
10.1
7 48
117
64
4 16
1 53.7
0.1745
63
9.2418
159
0.9847
9.9933
21 184
9.7
7 44
116
65
4 20
1 504
0.1682
63
9.2259
166
0.9858
9.9938
21 28.1
94
7 40
115
66
4 24
1 47.0
0.1619
64
9iM)93
175
0.9868
9.9942
21 37J5
8.9
7 36
114
67
4 28
1 43.5
0.1555
64
9.1918
183
0.9878
9.9947
21 464
8.6
7 32
113 ;
68
4 32
1 39.8
0.1491
64
9.1735
192
0.9888
9.9951
21 55.0
8.2
7 28
112
69
4 36
1 36.1
0.1427
65
9.1543
203
0.9898
9.9955
22 3.2
7.9
7 24
111
70
4 40
1 32.2
0.1362
66
9.1340
214
0.9907
9.9959
22 11.1
74
7 20
110
71
4 44
1 28.2
0.1296
66
9.1126
227
0.9916
9.9963
22 18.5
7.1
7 16
109
72
4 48
1 24.2
0.1230
66
9.0899
240
0.9924
9.9967
22 25.6
6.7
7 12
108
73
4 52
1 20.0
0.1164
67
9.0659
256
0.9932
9.9970
22 32.1
6.3
7 8
107
74
4 56
1 15.7
0.1097
67
9.0403
273
0.9940
9.9974
22 38.6
5.9
7 4
106
75
5 0
1 11.4
0.1030
67
9.0130
294
0.9947
9.9977
22 44.5
5.6
7 0
105
76
5 4
1 7.0
0.0963
67
8.9836
315
0.9954
9.9980
22 50.1
5.1
6 .^6
104
77
5 8
1 2.5
0.0896
68
8.9521
342
0.9960
99982
22 55.2
4.8
6 52
103
78
5 12
0 58.0
0X>828
68
8.9179
373
0.9966
9.9985
23 0.0
44
6 48
102
79
5 16
0 534
OX>760
69
8.8806
410
0.9971
9.9987
23 44
4.0
6 41
101
80
5 20
0 48.7
0X)696
68
8.8396
453
0.9976
9.9990
23 84
3.6
6 40
100
81
5 24
0 44.0
0.0623
69
8.7943
508
0.9981
9.9992
23 12.0
3.3
6 36
99
82
5 28
0 39.2
0X>554
69
8.7435
576
0.9985
9.9993
23 15.3
2.8
6 32
98 1
83
5 32
0 34.4
0.0485
69
8.6859
667
0.9988
9.9995
93 18.1
2.5
6 28
97 1
84
5 36
0 29.6
0.0416
69
8.6192
789
0.9991
9.9996
23 20.6
2.1
6 24
96 ,
85
5 40
0 24.7
0.0347
69
8.5403
967
0.9994
9.9997
23 22.7
1.7
6 90
95 !
86
544
0 19.8
0.0278
69
84436
1248
0.9996
9.9998
23 244
13
6 16
94
87
5 48
0 14.9
0JMO9
70
8.3188
1760
0.9998
9.9999
23 25.7
1.0
6 12
93
88
5 52
0 9.9
0X>139
69
8.1428
3010
0.9999
OXNXM)
23 26.7
0.6
6 8
92
89
5 56
0 5J0
OiX>70
70
7.8418
IXNXM)
0.0000
23 27.3
0.2
6 4
91
90
6 0
0 OJO
0.0000
IJOOOO
OJOOOO
23 27.5
6 0
90
This table is compnted for an obliquity of 2d<' 27' 30.
The argament k is either the longitude or the right as
cension, or their excess
abore 180«
or
12^
th
e formolA
4=raor = a— 12>»- inwhi
Dto longitude (1) and lai
itndeCf)by
lO
ch the sign of a is diat
ofoos.*
tan. p «= a tan. (* — B)
the sign of Bis that
of sin.a
tan. /» = 6 tan. (a — B) cos. p
the sign of .^ is that
of tan.*
a = a-hii-hp
fn
Longitude (1) and Utitnde (/f) are conrerted into rigl
rmole
k^l^ =1—180' inwh]
It ascension and dedim
itioobrdie
lUl
ich the sign of a is diat
of C0S.1
tan.^ = atan. (^-hS)
the sign of Bis that
of sin. A
tan. a ss 6 tan. (/f -h B) cos. a
thesignofiiisthot
of tan. 1
a = A-ha — y
The following approximate fonnnI» can be be used wl
len jt is less than 10°.
/l = 6 (a — B)
l==a-hA-ha{d^B
r)secjl
ai
id the factor sec- jf can bo neglected when jt is less than
4*».
10
MOON'S LIBRATION, 1855.
TABLE FOR
THE LIBRATION OF THE MOON.
a-x
AX
a
B
a-x
a-x
AX
a
B
a-x
o
0
0.0
39
O 1
0 0.0
1&
4S
0.6
56
f 19
o
134
1
0.0
39
0 1.6
179
47
0.6
57
I 4.9
133
2
0.0
39
0 3.1
178
48
0.6
58
1 6.0
132
3
0.1
39
0 4.7
177
49
0.6
59
1 7.0
131
4
0.1
39
0 6.2
176
50
0.6
60
1 8.0
130
5
0.1
39
0 7.7
175
51
0.6
62
I 9.0
129
6
0.2
39
0 9.3
174
52
0.6
63
1 10.0
128
7
0.2
39
0 10.8
173
53
as
64
1 10.9
127
8
0.2
39
0 12.4
172
54
0.5
66
1 11.8
126
9
0.2
39
0 13.9
171
55
OA
67
I 12.7
125
10
0.2
39
0 15.4
170
56
0.5
69
1 13.6
124
11
0.3
39
0 16.9
169
57
0.5
71
1 14.5
123
12
0.3
40
0 18.5
168
58
0.5
73
1 153
122
13
0.3
40
0 20.0
167
59
0.5
75
1 16.1
121
14
0.3
40
0 21.5
166
60
0.5
77
1 16.9
120
15
0.3
40
0 23.0
165
61
0.5
80
1 17.6
119
16
0.3
40
0 UJ6
164
62
0.5
83
1 18.4
118
17
0.3
40
0 26.0
163
63
0.5
86
1 19.1
117
18
0.3
41
0 27.4
162
64
0.5
89
1 19.8
116
19
0.4
41
0 28.9
161
65
0.4
92
1 20.4
115
20
0.4
41
0 30.4
160
66
0.4
95
1 21.1
114
21
0.4
41
0 31.8
159
67
0.4
99
1 21.7
113
22
a4
42
0 33.2
158
68
0.4
103
1 29.3
112
23
0.4
42
0 34.7
157
69
0.4
108
1 22.9
111
24
0.4
42
0 36.1
156
70
04
113
1 23.4
no
25
0.4
43
0 37.5
155
71
0.4
119
1 23.9
109
26
0.5
43
0 38.9
154
72
0.4
125
1 24.4
108
27
0.5
43
0 40.3
153
73
0.4
132
1 24.9
107
28
0.5
44
0 41.7
152
74
0.3
141
1 25.3
106
29
0.5
44
0 43.1
151
75
0.3
150
1 25.7
105
30
0.5
45
0 44^
150
76
0.3
160
1 26.1
104
31
0.5
45
0 45.7
149
77
0.3
172
1 26.5
103
32
0.5
46
0 47.0
148
78
0.2
186
1 26.8
102
33
0.5
46
0 48^
147
79
0.2
202
1 27.1
101
34
0.5
47
0 49.7
146
80
0.2
222
1 27.4
100
35
0.5
47
0 51.0
145
81
0.2
247
1 27.7
99
36
0.5
48
0 52.2
144
82
0.2
278
1 27.9
98
37
OA
48
0 53.4
143
83
0.1
318
1 28.1
97
38
OS
49
0 54.7
142
84
0.1
370
1. 28.3
96
39
0.6
50
0 55.9
141
85
0.1
440
1 28.5
95
40
0.6
50
0 57.1
140
86
0.1
555
1 28.6
94
41
0.6
51
0 58.3
139
87
0.1
740
1 28.7
93
42
0.6
52
0 59.4
138
88
0.0
1110
1 28.7
92
43
0.6
53
1 0.6
137
89
0.0
2220
1 28.8
91
44
0.6
54
1 1.7
136
90
0.0
<Z>
1 28.8
90
45
0.6
55
1 2.8
135
^1 htf the sign of tan. (C
a htf the sign of cos. (^
fi htf the ngn of sin. (£
^-^)
Wb<
«ft-i
exoeeds
lB(f> the table 18 to be entered
With (ft
— a) — 1
SO^u tfa<
) Aign-
mentii
a the coin
mna —
1.
11
MOON'S MEAN MOTION, 1855.
MOON'S MEAN MOTION IN LONGITUDE FOR SIDEREAL |
INTERVAI-S.
Dv.
C*« Motion la
LODfiUllk.
Mlonui.
C*» Motion Is
LoDfitudo.
BUmIm.
C'lMoUoalD
LoOflUKlfc
o /
1
30
1
164
1
13 8^
1
0\5
31
17.0
2
86 16.9
8
1.1
38
17.5
8
39 88.3
3
1.6
33
18.1
4
68 33.7
4
8.8
34
18.6
5
65 48.1
5
8.7
35
19J
•
78 50.6
6
3J
86
19.7
7
91 59.0
7
3J
87
90^
8
105 7.4
8
4A
38
80J
9
118 15.8
9
- 4.9
89
814
10
131 84.3
10
5.5
40
81.9
Hour.
11
6i>
41
884
18
6.6
48
88J0
1
0 38.9
13
7.1
48
885
8
1 5.7
14
7.7
44
84.1
8
1 38.6
15
8J
45
844
4
8 IM
16
8J
46
85J
5
8 44.3
17
9.3
47
85.7
8
3 17.1
18
9J
48
86.3
7
3 50.0
19
104
49
864
8
4 88.8
80
lli>
50
874
9
4 55.7
81
UA
51
87J
10
5 88.5
as
18.0
58
884
11
6 1.4
83
18.5
53
88i>
18
6 34J
84
13.1
54
884
13
7 7.1
85
134
55
8ai
14
7 39.9
86
14J
56
3a7
15
8 18.8
27
14.7
57
31J
18
8 45.6
88
15^
58
314
17
9 18.5
89
15.9
59
384
18
9 51.3
30
164
60
884
1
19
10 84J
10
Oil
10
10 57.0
80
04
81
11 88J
80
04
^
18 8.7
40
04
^
18 35.6
50
04
L-
13 84
60
04
1
12
CHAUVENET'S
TABLES FOR CORRECTING LUNAR DISTANCES,
WITH
DIRECTIONS FOR USING THE TABLES,
AND
EXPLANATION OF THEIR CONSTRUCTION, &c.
62 13
DIRECTIONS
VOB UBIHO
CHATJVENErS TABLES FOR CORRECTING LUNAR DISTANCES.
The object of these Tables is to give the true correction of a lunar distance in all
cases when, with the apparent distance of the moon from the sun, a planet, or star,
the apparent altitudes of the two objects have also been obtained by observation.
They enable us readily to take into account, — 1st, the parallax of the moon in the
latitude of the observer, allowing for the spheroidal figure of the earth ; 2d, the
parallax of the sun or a planet ; 3d, the true atmospheric refraction, allowing for the
actual state of the air as shown by the barometer and thermometer ; and 4th, that
effect of refraction which gives the apparent discs of the moon and sun an oval or
elliptical figure.
The longitude deduced from a lunar observation, when no attention is paid to the
spheroidal figure of the earth, to the barometer and thermometer, and the elliptical
figure of the discs, may in certain cases be in error a tohoh degree. It is true these
extreme cases are rare in practice; but cases are common in which from such
neglect the error in the longitude is 10', 15', or 20'. Since lunars are now chiefly
valuable as checks upon the chronometer, it is absolutely necessary to get rid of such
errors, and to leave no other inaccuracy in the result than that which unavoidably
follows from the observations. This is accomplished by means of these Tables, with
an amount of labor very little greater than that which is required by the inaccurate
methods in common use.
The Observation.
The record of a complete observation embraces, —
1. The latitude and approximate longitude of the place of observation.
2. The approximate local time.
3. The time of observation as shown by a chronometer, and the error of the chro-
nometer, or its difierence from mean Greenwich time.
4. The apparent distance of the moon^s bright limb from a star or planet, or from
the nearest limb of the sun.
5. The apparent altitude of the moon^s upper or lower limb above the sea horizon.
6. The apparent altitude of the star, planet, or lower limb of the sun above the
sea horizon.
15
APPENDIX.
7. The height of the barometer and thermometer.
8. The height of the eye above the level of the sea.
9. The index correction of the sextant, if a sextant is used.
The index correction of the sextant may be supposed to be previously determined ;
but, since even in the best instruments it is not constant, its determination should be
considered a necessary part of the observation ; and when the greatest precision is
sought, it should be found both before and aAer the measurement of the distance, and
its mean value taken.
The error of the chronometer above alluded to is that which is obtained by apply-
ing the daily rate (multiplied by the proper number of days) to the error found before
leaving port The agreement or disagreement of the error thus found with that
found by the lunar observation will be the test of the good or bad going of the
chronometer.
Preparation op the Data.
Greenwiek Daie. — Correct the chronometer time for its error from Greenwich
time and deduce the Greenwich Date, i. e. the Greenwich day and hour (mean time),
reckoning the hours in succession from 0 to 24, beginning at noon.
Nautical Almanac. — With the Greenwich Date enter the Almanac and take out
the moon^s semidiameter and horizontal parallax ; and if the sun is observed, its semi*
diameter and horizontal parallax ; * but if a planet is observed, its horizontal parallaz
only.
Apparent AUUude of the Moim, — To the altitude given by the sextant apply the
index correction of the instrument and subtract the dip of the horizon. Table I. If
the lower limb is observed, add the semidiameter augmented by Table II. ; if the
upper limb is observed, subtract the augmented semidiameter. The restilt is the
apparent altitude of the moon^s centre, denoted ** C^s App. Alt.^
Apparent Altitude of the &m, Planet^ or Star, — To the observed altitude apply
the index correction of the sextant, and subtract the dip. Table I. ; and if the sun is
used, add its semidiameter when the lower limb is observed, or subtract it when the
upper limb is observed. The result b the apparent altitude required, denoted by
"0'sor i^'s App. AU,"^
Apparent Distance, — 1st When the sun is used, to the observed distance (cor-
rected for index error when necessary) add the moon's augmented semidiameter and
the sun's semidiameter. 2d. When a planet or star is used, add the moon's aug-
mented semidiameter if its nearest limb is observed, but subtract it if its farthest limb
is observed. The result is ** App. Dist.^^
Moon's Reduced Parallax and Refraction. ^ Enter Table DL with the latitude of
the place of observation and the moon's horizontal parallax, and take out the correc-
tion, which add to the horizontal parallax. Call the result the moon's reduced par-
allax, or " C 's JRerf. P."
Enter Table IV. with the moon's apparent altitude, and take out the mean reduced
* The rani horiiontal pimllMC majr be astiuned m S"i(.
16
APPENDIX.
* refraction, and apply to thts mean refraction the correctioDs given in Tables IV. A.
and IV. B., adding or subtracting these corrections according to the directions in the
Tables, The result is the moon^s reduced refraction or ^^ (C 's Red, jR.''
Subtract the " C's Red. JL" from the ** C's Red, P.^ and mark the resuh as
'' €.'9 Red. P. and R,"^
Reduced Parallax and Refraction of Sim^ Planet^ or SUtr.^ — With the apparent
altitude of the sun, planet, or star, take from Table IV. the mean reduced refraction,
which correct by Tables IV. A. and IV. B. If the sun is observed, subtract its horizontal
parallax (which may be always taken at 8".5) from its reduced refraction, and mark
the result as " ©'s Red. P. 4* H,*' If a planet is observed subtract its horiEontal
parallax, and mark the result as ^' :|c*s Red. P. ^ If If a star is observed its
reduced refraction is at once the required ^^^ :|c's Red. P. if R.'*'*
Computation of thb True Distance.
Take from Table V. the four logarithms A^ J9, C, B^i and place these logs, each
at the head of a column, marking the columns A^ B^ C, and 2>, respectively ; then
put the
log. of C's Red. P. 4- R. (Table IX.) in Columns A and B
log. of 0's Red. P.SfR. " "
log. sine C's ilpp^J/^ (Bowd. Table XXVII.) "
log. sine Q's App. Alt. " "
log. cotangent App. Dist. " "
log* cosecant App. Dist. ** •*
The sum of the four logs, in CoU 4 is the log. (Table IX.) of the Firtt Part of€^s
Correction^ which is to be marked -i- when the App. Dist is less than 90^, but —
when the App. Dist is greater than 90^.
The sum of the four logs, in Col. ^ is the log. (Table IX.) of the Second Part of
C V Correction^ which is always to be marked — •
The sum of the four logs, in Col. C is the log. (Table IX.) of the First Part of the
Q^s or :|c'« Correction J which is to be marked — when the App. Dist is less than
90"", but + when the App. Dist is greater than 90°.
The sum of the four logs, in Col. D is the log. (Table IX.) of the Second Part of
the ©'« or 3|c'« Correction^ which is always to be marked -i-.
Combine the first and second parts of the C 's correction according to the signs
(+ or — ) prefixed ; that is, take their sum if they have the same sign, but their
difference if they have different signs, and prefix the sign of the greater to the
result, which call " (C ^s whole Correction."*^
In the same manner form the Q^s or 3|c'« wihole Correction.
First Correction of Distance. — Combine the C^« whole corr. and the 0'« or ijfi'^s
^ The parallax of a star being zero, its ''redaced parallax and refbictioii'* become, of oonrse,
merely its ** redaced refraction"; bat as no mistake can arise from marking it as ** ^'s P. ir R^" this
designation has been retained in order to give simplicitj and nniformity at once to the roles and the
tables.
t No interpolation is reqmred in taking out these logarithms.
17
c
it
D
A
i(
D
B
(C
C
A
u
C
B
((
D.
APPENDIX.
whole corr. according to their signs ; the result is the First Carredian of Distatux^
which is to he added to or subtracted from the apparent distance, according as its
sign is -h or — .
Second Correction of Distance. — Enter Table VI. with the Apparent Distance
and the First Correction of Distance, and take out the Second Correction of Distance^
which is to be applied to the distance according to the directions in the side columns
of the Table.
Correction for the Elliptical Figure of the Moon*8 Discj or Contrition of the
Moon's Semidiameter (Table VII.). — Enter Table VII. A. with the C's App. Alt and
C ^s Red. P. & R., and take out the number. With this number and the C ^* whole
correction enter Table VII. B. and take the required contraction^ which b to be added
to the App. Dist. when the farthest limb is observed, but subtracted when the ne4trest
limb is observed.
Correction for the Elliptical Figure of the Sun*s Dise^ or Contraction of the Sun'^s
Semidiameter (Table VIII.). — Enter Table Vm. A. with the Q's App. Alt and
O's Red. P. 6l R. and take out the number. With this number and the 0*> whole
corr. enter Table VIII. B. and take out the required contraction^ which is always to be
subtracted from the distance (the nearest limb of the sun being always observed).
Correction for Compression or for the Spheroidal Figure of the Earth. — Take
from the Nautical Almanac for the Greenwich Date the value of log. iV, given with
the lunar distance observed.* To log. N add the log. sine of the latitude of the
place of observation ; the sum is the log. (Table IX.) of the required correction for
compression. In North latitude add this correction to the distance if log. N in the
Nautical Almanac is marked -ht or subtract it if log. N is marked — ; in South
latitude subtract the correction when log. iV is +i &nd add it when log. N is — .
All these corrections being applied to the Apparent Distance, the result is the
Drue Distance.
To FIND THB Error of the Chronometer.
Fmd in the Nautical Almanac the two distances between which the true distance
falls. Take out the first of these together with the Prop. Log. following it and the
hours of Greenwich time over it. Find the difference between the dbtance taken
from the Almanac and the true distance, and to the log. of this diflerence (Table IX.)
add the Prop. Log. from the Almanac ; the sum is the log. (Table IX.) of an interval
* The Tftloet of log. N sre giren in this number of the Almmsr for the diitancM from the ran
only, end will bo found in Teble XL of thii Appendix. For other distmncee log. NmMj be found
with vniBcient aocnrmcj for ordinmry pnrpoeet from Tnble XIL hj the following rule.
From the Nautical Almanac take the moon*t and star's (or planet*s) declinations to the nearest
whole degree. With the moon*s declination and apparent dbtanoe take from Table XII. A. the Jint
part of N, wad mark it with the sign in the table if the declination is North ; hot if the decUnatkMi is
South, change the sign from + to — or from — to -h. With the star's (or planet's) declination and
apparent distance, take from Table XII. B. the mamdpart of N, and mark it -h when the declination
is North, and — when South, Take the mm, or differmtee, of the two parts, according as thdr signs
are the aame or different^ and to the resulting number prefix the sign of the greater. The logarithm
of this number of seconds, taken in Table IX., with its sign prefixed, is the required log. JV; to bt
used as directed in the text.
18
APPENDIX.
of time to be added to the hours of Greenwich time taken from the Almanac. The
result is the {iq)proximaU Greenwich time.
To correct this Greenwich time, take the difference between the two Prop. Logs,
in the Almanac which stand against the two distances between which the true dis-
tance falls. With this difference and the interval of time just found, enter Table X.
of this Appendix, and take out the seconds, which are to be added to the approx-
imate Greenwich time when the Prop. Liogs. are increasing^ but subtracted when
the Prop. Logs, are decreasing. The result is the true Greenwich time.
The difference between the true Greenwich time and the time shown by the chro-
nometer is the error of the chronometer as determined by the lunar observation.
Dbgrse of Dbpendbncb.
If the error thus determined agrees with that deduced by means of the rate and
original error, the chronometer has run well, and its rate is confirmed ; if otherwise,
more or less doubt is thrown upon the chronometer, according to the degree of accu-
racy of the lunar observation itself. An error of 10" in the measurement of the
distance produces about 20^ error in the Greenwich time ; and since, even with the
best observers, a single set of distances is subject to a possible error of 10", it may
be well to consider the chronometer as still to be trusted so long as it does not differ
from the lunar by more than 20^. Since, however, so much depends upon skill in
measuring the distance, the observer can only form a correct judgment of the degree
of dependence to be placed upon his own observations by repeated trials and a care-
ful comparison of his several results.
19
APPENDIX.
Example I.
In Lat dS"* SO' N., Long. 90^ W., by account, on September 7th, 18S5, about 6^
A. M., the Greenwich chronometer showing 6^ 29** 57*'.5 and supposed to be /osl
21"* r-.5 ; the observed distance ot Q^s and C^s nearest limbs is 43"* 5Q* 10" ; ob-
served alt. ± 49^ 32' 50"; observed alt. © 5^ 27' 10"; barometer 29.1 inches;
thermometer 75^ ; height of the eye above the sea 20 feet ; index correction of the
sextant 0. What is the error of the chronometer on Greenwich time according to
these observations?
ChioiiMMter
(Fast)
Ctreenw. date Sept t
OWdAltl
Dip Tab. L
<'tBed.B.Tab.IV.
Barom. Tab. IV. A.
Therm. Tab. IV. B.
^'ilUtLP.^ll
h. m. fl.
S 29 57 Ji
— 21 1^
20 8 56.0
o I «
49 82 50
— 4 23
-hl5 1
49 43 28
I «
1 16
—3
—4
1 9
54 23
53 14
Preparation of the Data.
C'ssemicLN. A. 14 50.0
Aug. Tab. IL 4-11^
('sang. Semid. 15 1.2
Obt'daltO 5 2^10
Dip — 4 23
©^i semid. -4-15 55
O** ^PP' Alt. 5 38 42
0*0 Bed. B. Tab. IV. 8 s9
Barom. Tab. IV. A. —16
Theim. Tab. IV. B. —28
'f BuL JL 8 13
'« Par. 8
©*f 72edL P. ^ R 8 5
f:
d'sPar.N.A.
Aiig.Tab.in.
a'liZetiP.
54i9.{
H-3.6
54 23J0
Obs'd distance Ol K ^^ 52 10
tf 's ang. semid. 4- 15 1
0*s semid. 4-15 55
Aj^DuL 44 23 6
CamjfuUUum of the TVtie Distance.
log. A. Tab. y. 0X)021
log. i V Bed. P.& B. Tab.lX. 3.5043
kg. SSL ('s Add. Alt 9.8825
log. cot App. Dist 0.0093
C log. Tab. IX. 3.3982
I \$l Port 4. *« ewr. -Ml' 42"
C.
log. C. Tab. y. 9.9949
logO*iRed.P.&B. TabJX.2.6857
log. sin. Q** ApP' ^^ 8.9929
log. cot App. D»t 0.0093
C log. Tab. IX. 1.6828
I \9t Part 0*« e«T. — 0* 48"
B.
log. B. Tab. y.
log. tf*sBed.P.&B.
log. sin. 09 App. Alt.
log. cosec App. Dist
) log. Tab. IX.
i^Part i'icorr,
(i '• wJb^e eorr.
log. N." Tab. XL
log. sin. Lat 35P SO' N.
log. Tab. IX.
I
9.9951
3.5043
8.9929
0.1552
2.6475
— 7' 24"
4-34' 18^
—0.764
4-9.764
D.
log. D. Tab. y. 9.9992
log. O's Bed. P. & B. 2.6857
log. sin. (*s App. Alt 9.8825
log. cosec. App. Dist 0.1 552
( log. Tab. IX. 2.7226
} 9(f Part gys eorr. 4-8' 48"
&swhUeeorr. 4-8' 0"
App.DuL
Itteorr.
2(f corr. Tab. VI.
Omtractim of i't\
Samd Tab. VD.
Omtraetkm of Q't
Smid.T9h.ym.\
-0JJ28 Orr.Jbr
TVmDukmet
44 23 6
4-42 18
— 16
0
— 20
— 3
45 4 45
* This log. maj be found bj the rale in the noteonp.lSof this Appendix, in ease it is desired lo
apply the correction for compression to obserrations taken hi fonner jrears.
20
APPENDIX.
To find ike Error of the Chronometer.
True distance
Distance N. A. at XVIIL*»-
45° 4' 45"
46 3 17
Difference
58 32
Approximate intenral
AdS
2h. gm. 31.
18
Approx. Gr. time
Corr. Tab. X.
20 9 3
—2
True Gr. time 80 9 1
Gr. time bj Chronom. 20 8 56
Chronom. and lunar differ onlj 5
P.L. 0.3433 Diff.P.log8. +5
log. Tab. IX. 3.5456
log. Tab. IX. 3.8889
and therefore the chronometer may be considered as going well.
This example, worked by Bowditch^s First Method, gives the true distance 45^ 5^
44", differing from the above 69", in consequence of the omission by Bowditch of
the small corrections. This difference would produce an error of 2"' 10^ in the
Greenwich time, and consequently the longitude in this case deduced by Bowditch^s
method would be in error 32'.5 ; that is, more than half a degree.
Example II.
In Lat 55** 20^ S., Long. 120** 25' W., by account, on August 29th, 1855, about
giu 4Qin. p^ ]y|^ ^jjg Greenwich chronometer showing 5*** 35'"- 46' .2 and from previous
rate supposed slow 5*°* 12* ; the following distance and altitudes are found, being
the mean of six observations corrected for index errors. Observed distance of Fo-
malhaut and C's farthest limb 46*' 20* 23" ; observed alt. ± 6* 26' 10" ; observed
alt. Fomalhaut 52" 34' 40" ; barometer 31 inches ; thermometer 20** ; height of the
eye above the sea 18 feet What is the error of the chronometer according to
these observations ?
Preparation of the Data,
h. m. 0.
5 35 46.3
-h 5 12
Chronometer
(Slow)
Qreeiiw.dateAiig.29^ 17 40 58 2
Obs'dAltJL 6 26 10
Dip Tab. L — 4 9
C *8 aag. semid. H-16 28
(1'iApp.AlL 6 38 29
a'8Bed.R. Tab.iy. tf 48
Barom. Tab. IV. A. 4-16
Thenn. Tab. IV. B. -4-32
^'iRed,R 8 36
il'iRed.P. 60 20
^*i Red. P. i- R, 5144
<I *8 semid. N. A.
Ang. Tab. II.
d *8 aug. Semid.
Ob8*dalt.3|c
Dip
H:'sApp,AU.
*»8 Red. R. Tab. IV.
Barom. Tab. IV. A.
Therm. Tab. IV. B.
^'8 Red. R.
:<C*» Par.
HCs RedP.fR-
21
16 26.3
4-2.0
16 28.3
52 34 40
— 4 9
52 30 31
d»8Par.N.A.
Ang. Tab. m.
60 11.8
4-8i>
60 20.1
Obs'd distance >|c <I I 46 30 23
d '8 aug. semid. — 16 28
App. Ditt. 46 13 55
APPENDIX,
Computation of the True Distance.
log. A. Tab. V. 0.0274
kg. a 's B6d.P.& R. Tab JX. 3.4919
log. sin. ^ 's App. Alt 9.0632
log. cot App. Dut 9.9813
Slog. Tab. IX. 2.5638
1 jf Part a *« corr. 4-6' 6"
B.
log. B. Tab. V.
log. a'8Bod.P. &R.
log. sin. ^*s App. Alt.
log. cosec App. Dist
J log. Tab. DC
}%dPart <I*«oorr.
< *• whole corr,
log.N."
log. tin. Lat 55^ a
log. Tab. IX.
OJOOOl
3.4919
9.8995
0.1414
3.5329
—56' 51"
— 50*45"
—1.230
—9.913
c.
log. C. Tab. V. 9.9999
log.*'8Bed.PAR. TabJX. 1.9031
log. sin. ^*8 App. Alt 9.8995
log. cot App. Dut 9.9813
5 log. Tab. IX. 1.7838
\ lit Part 3|C*# com, —1' 1''
log. D. Tab. V.
log. ^*B Red. P. & R.
log. sin. C*sApp. Alt
log. cosec. App. Dist
( log. Tab. DC
) 2(f Part ^jCi corr,
>|C'« whole corr.
0.0267
1.9031
9.0632
0.1414
1.1344
-fC 14"
—0' 47"
App.Ditt.
lit corr.
arfcorr. Tab. VL
Qmtractum of ^*»]
&muiTab.yn. !
4-1.143 C6rr,Jbr
7huDutmte$
46 18 55
—51 38
— 28
+ 17
^+ 14
46 88 88
To find the Error of the Chronometer.
Trne Biftanee
DistN.A.atXV."»-
45^ 22' 82"
43 51 59
P.L.
0.2687 Diff. P. Loga.
Difference
1 30 38
log. Tab. DC.
3.7350
Approx. interral
2b. 42m. J..
15
log. Tab. IX.
3.9877
Appxx>z. Gr. time
Corr. Tab. X.
17 42 1
4-1
Trne Gr. time
Gr. time bj cfaronom.
17 42 8
17 40 58
Chron. and lunar differ 1 4
and 9 the distances having been observed with care, the chronometer has probably
changed its rate. A second observation confirming this, we must, fh>m repeated
lunars, determine a new rate, which may be used until an opportunity occurs of
rating at a fixed place whose longitude is tolerably well known.
This example, worked by Bowditch^s Second Method, gives the true distance 45^
21' 31", which is in error 1' 1", and would produce in the longitude deduced from it
in this case an error of about 28'.
* Tbis valoe of log. N. is formed from Tab. XH by the rule in the note on page ISof this Appen-
dix: dins
C's dec. 4<> N., App. Dist ifP in Tab. Xn. A. gires 1st Part of N — 1"
:|C*s dec 80P 8., App. Dist 46P in Tab. XII. B. gires 8d PtetofN— 16
N-17
the kg. of which is in Tab. IX. 1.830.
22
EXPLANATION OF THE TABLES/
Table I. — Dip of the Sea Horizon^ computed by Delambre^s formula {Aslrono'
miey Vol. m., Chap. XXXYI.), which, when feet are substituted for metres, is
where F = height of the eye above the level of the sea, in feet,
D = depression of the sea horizon, in seconds.
Table II. — Augmentation of the Moon*8 Semidiameter^ computed by the formula
(Francceur, Astron. Pratique^ p. 58)
« = c««sinA-f-J(^«3sin2A-hJc3,«,
where h =: moon^s appsurent altitude,
8 =: moon's horizontal semidiameter,
X = augmentation of semidiameter for the altitude A,
log c = 5.25021.
Table III. — Augment^Uion of the Moon'*8 Horizontal Parallax^ or correction to
reduce the moon's equatorial horizontal parallax to that point of the earth's axis
which lies in the vertical of the observer in any given latitude, computed by the
formulas
A,r = ,(J-l), J = _-^^_L__,
where w = equatorial horizontal parallax,
^ = latitude,
e = eccentricity of the meridian, log c^ = 7.81602,
Air=^ augmentation of the horizontal parallax for the latitude ^.
Table IV. — Mean Reduced Refraction for Lunars^ computed by the formula
r' = -^ = —
cos h sin A '
* Tables I^ II., and IX., which are not peculiar to Professor Chanyenet*s method, are inserted to
save a reference to other works for them; so that the oompnter requires, in connection with this rol-
nme, only a table of logarithmic sines and tangents. These three tables bavei however, been recom-
puted, as stated in the ** Explanation."
23
APPENDIX.
where h = the apparent altitude,
r = mean refraction, harometer 30 inches, Fahrenheit's thermometer 5(y,
r' = mean reduced refraction for lunars.
The refractions employed are Bessel's, and were taken from his table {A$tnh
nomisclie Untersuchungen^ Vol. I. p. 200), which gives directly IT = r tan A.
Tables FV. A. and FV. B. — Corrections of the Mean Refraction for the Height
of the Barometer and Thermometer^ deduced also from BessePs table above cited.
These tables serve for correcting either r or r', according as the one or the other is
taken as the argument
Table V. — Logs, of Ay B^ C, and D, for computing the First Correction of the
Lunar DistancCy computed by the formulas
sin A * sin ff *
D_ -r,8in(9/r— A-HJ y,__8in(aA-hAA)
where h = moon's apparent altitude,
H= sun's, planet's, or star's apparent altitude (denoted in the tables by 0*8
or :|c'8 App. Alt),
A A = difference of <L 's apparent and true altitudes,
A ir= difference of Q's or >|c's apparent and true altitudes,
log K = .000126,
and Ahy aH were computed from the arguments ^* apparent altitude '' and ** ro*
duced parallax and refraction " by the formulas
Ah={p — r')K'coshy Air=:(R' — P)cosfl,
where p — r' = C's reduced parallax and refraction,
U' — P= O's or >|c'8 reduced parallax and refraction,
p = Cs horizontal parallax + A ir (Table III.),
P = O's or :|c'8 horizontal parallax (for a star P = 0),
r' = Cs reduced refraction (Table IV.),
R = O's or *'s reduced refraction (Table IV.).
When A and H become 90°, the values of B and D assume the indetdrminata
forms
^-6' ^-6'
and therefore, for computing their logarithms near the end of the table, the formulas
were transformed as follows :
B= Cir'[l-hi(R' — P)8inl"sinfl],
2> = ^, [1 — i (p — r') Z' sin 1" sin h] .
By means of Logs. Ay By C, and D, the first correction of the distance is found by
the following formulas : — *
24
EXPLANATION.
if
d = apparent distance of <C from © or 9|C,
Ai d = first correction,
-4' = A{p — r') sin * cot d,
B' = — B (p — r') sin ITcosec d,
a =: — € (R'—P) sin IT cot d,
!>'= D(K'— P)sinAco8ecd,
then
A,d = {A* + BO -h ((> + D'),
and in the directions for using the tables, il' + B' is called the ^^ whole correction
for <C ," and C -h !>' the " whole correction for © or *."
Table VI. — Second Correction of the Lunar Distance^ computed by the formula
Aj d = — J Ai d" sin 1" cot d.
Strictly, this formula should be
A, d = — i A (? sin 1" cot d,
where A d = whole correction of distance = A| <£ + A« d , so that by entering the
table first with Ai d we find only an approximate value of 4i d. But if with this ap-
proximate value we form the approximate whole correction Ai d + A3 d, and enter
with this as the argument in the place of Ai d, we have the true value of Aqd. It is
evident, however, from the table itself, that, in most practical cases, this degree of
precision is unnecessary.
Table VII. — For finding the Correction of the Lunar Distance for the Contract
tion of the Moon^s Semidiameter (by refraction), computed by the formula
where the notation already employed is preserved, and
A «o = contraction of the moon^s vertical semidiameter at the altitude A,
A « = contraction of the inclined semidiameter, or of that which lies in the di-
rection of the lunar distance.
This table is subdivided into Tables VII. A. and VII. B. If we put
^ (p — r')8op8?A^-''
then
where / is an arbitrary factor employed to give g convenient integral values, and in
these tables wo have taken / = 18000000 ; A «o » A 5 , p — r', and A' -h B' being
all expressed in seconds. Table VII. A. gives the value of g with the arguments
p — r' and h ; and Table VII. B. gives A s with the arguments A' 4- 5' and g.
To find A 80 from the arguments p — r' and A, the mean value of r' for the altitude
h was added top — r', so that p became known ; whence also the semidiameter, —
25
APPENDIX.
and consequently, by means of the refraction tables, the contraction A a^. The value
of A « given by Table VII. B. is therefore that which corresponds to a mean state of
the air, and in extreme cases may be in error 4", but in no prohahk case will it be in
error more than 1''. The true value of A « might, however, always be found by cor-
recting it, as refraction, by Tables IV. A. and IV. B.
Table Vm. — Far finding the Correction of the Lunar Distance for the Contrac'
tion of the Sun'a Semidiameter (by refraction), computed by the formula
where, in addition to the notation already employed, A Sq = contraction of the sun^s
vertical semidiameter at the altitude H; A S = contraction of the inclined semi-
diameter. Table VIII. A., with the arguments R — P and IT, gives a number
^- A8o ^^»
in which A S^ is taken for a mean value of the sun^s semidiameter, P is assumed at
8".6, and P is an arbitrary factor =7^; K' — P, C -4- !>', A S;,, and A iS being all
expressed in seconds. Table VIII. B., with the arguments C + D' and G, gives
This value of A <S is that which belongs to the actual state of the air, but is for a
mean value of the sun^s semidiameter, the variations of which would not change the
tabular value by more than (y'.5 in any case.
Table IX. — Logarithms of Seconds. This table contains the common loga-
rithm answering to the arc (either space or time) in the argument. For the con«
venience of the navigator, this table is given with the argument, degrees, minutes,
and seconds, or houre, minutes, and seconds, for every ten seconds, at the side, the
unit figure of the seconds being found at the top.
The logarithm is given with the proper characteristic prefixed.
Table X. — This table contains the correction for second difierences of the moon^s
motion.-
Table XI. contains the values of log. N for the distances from the sim, com-
puted by the following formula : —
\8in </ tMud/
where v = C^s equatorial horizontal parallax,
A = sun^s declination,
d = C ^s declination,
d = angular distance of the moon and sun referred to the centre of the earth,
i\P = —T- a o .V » for which the value of i\P is taken corresponding to
^ = 45*, or log. N = 7.8170.
26
EXPLANATION.
Table XII. — For finding the Value of N. By this table an approximate value
of N may be readily found, with sufficient accuracy for ordinary purposes. When
very great accuracy is desired, the formula given in the explanation of Table XI.
should be used. In Table XII. the moon^s horizontal parallax is assumed at its
mean value = 57' 30", and the two parts of JV are separately tabulated by the
formulas
a (= first part of iV) = — N' n sm d cotan d,
h (= second part of iV) = N' n sin A cosec d ;
from which N is found by the formula
NoTB. — The demonstration of most of the formnlas cited in the preceding explanation is giren in
the Astronomical Journal (Cambridge, Mass.)) Vol. II., Nos. 3 and 4.
27
TABLES.
TABLE I.
TABLE n.
1
TABLE m.
Dip of the Seft
Horixon.
Aagmeotation of the
Moon^s Hor. ParalUx.
Apfmr-
AlUinde
of>
Uti.
>'S Horisoutal
PiralUx.
Heicht
oTOie
Bye.
Dtpoftho
Horijoo.
14'
w
1^
ir
tude
ofOb-
•errft-
M'
«r
61'
80»
o»
30"
0"
80»
0"
Uon.
Pe^
1 n
o
II
N
ti
«.
"^
II
o
fi
,
If
0
000
0
0.1
0.1
0.1
0.1
0.2
0.2
0
0.0
0.0
0.0
1
0 59
2
0.6
0.6
0.7
0.7
0.8
0.8
2
0.0
0.0
OJO
2
1 23
4
1.0
1.1
1.2
1.3
14
1.5
4
0.1
0.1
0.1
3
1 42
6
1.5
1.6
1.7
1.9
2.0
2.1
6
0.1
0.1
0.1
4
1 58
8
2.0
2.1
2.3
24
2.6
2.7
8
0.2
0.2
0.2
5
2 11
10
24
2.6
2.8
3.0
3.2
34
10
0.3
0.3
04
6
224
12
2.9
3.1
3.3
3.6
3.8
4.0
12
0.5
0.5
0.5
7
2 36
14
3.4
3.6
3.9
4.1
44
4.7
H
06
0.7
0.7
8
2 46
16
3.8
4.1
44
4.7
5X)
5.3
16
0.8
0.9
0.9
9
2 56
18
4.3
4.6
4.9
5.2
5.6
5.9
18
1.0
1.1
1.1
10
306
20
4.7
5.1
54
5.8
6.1
6.5
20
1.2
IJS
14
11
3 15
22
5.2
5Ji
5.9
6.3
6.7
7.1
22
1.5
1.6
1.7
12
3 24
24
5.6
6.0
64
6.8
7.3
7.7
24
1.7
1.9
2X>
1)1
3 32
26
6.0
6.5
6.9
74
7.8
8.3
26
2.0
2.2
2JS
14
340
28
6^
6.9
74
7.9
84
8.9
28
2.3
2.5
2.6
15
348
30
6.9
7.3
7.9
84
8.9
9.5
30
2.6
2.8
3j0
16
3 55
32
7.3
7.8
8.3
8.9
94
10.0
32
2.9
3.1
34
17
4 02
34
7.7
8.2
8.8
94
10^
10.6
34
9JS
3.5
3.8
18
409
36
8.1
8.6
92
9.8
10.5
11.1
36
3.6
3.9
4.1
19
4 16
38
84
9.0
97
10.3
10.9
11.6
38
4j0
4.3
4.6
20
423
40
8.8
9A
10.1
ia7
114
12.1
40
4JS
4.6
5.0 !
21
429
42
9.2
9.8
10.5
11.2
11.9
12.6
42
4.7
5.0
54
22
4 36
44
9.5
10.2
10.9
11.6
12.3
13.1
44
5.0
54
&8
23
4 42
46
9.8
10.5
11.3
12.0
12.8
13.6
46
54
5.8
6.2
24
448
48
10.2
10.9
11.6
124
13.2
14X)
48
5.8
6.2
6.6
25
454
50
10.5
11^
12.0
12.8
13.6
144
50
6.1
6.6
7.1
26
500
52
10.8
11.5
12.3
13.1
14.0
14.9
52
$A
7jO
7.5 '
27
5 06
54
11.1
11.8
12.7
13.5
144
15.3
54
6.8
74
7.9
28
5 11
56
11.3
12.1
13.0
13.8
14.7
15.6
56
7.2
7.7
8JI
29
5 17
58
11.6
124
13;i
14.1
15.1
16.0
58
7.5
8.1
8.6
30
5 22
60
11.8
12.7
13.5
144
154
16i)
60
7.8
8.4
9.0
35
5 48
62
12.1
12.9
13.8
14.7
15.7
16.6
62
8.1
8.8
94
40
6 12
64
12i)
13.2
14.1
15.0
16.0
16.9
64
84
9.1
9.7
45
634
66
12.5
13.4
14.3
15JI
16.2
17.2
66
8.7
94
IOjO
50
6 56
68
12.7
13.6
14.5
15.5
16.5
17.5
68
9X>
9.7
10.3
1
55
7 16
70
12.9
13.8
14.7
15.7
16.7
17.7
70
9.2
9.9 1 10.6 1
! «>
7 35
72
13.0
13.9
14.9
15.9
16.9
17.9
72
9.5
10.2 i 10.9
65
754
74
13.1
14.1
15.0
lejo
17.1
18.1
74
9.7
104
11.1 |.
70
8 12
76
13.3
14.2
15.2
16J
17.2
18.3
76
9.8
10.6
IIJ! >
75
829
78
13.4
UJS
15.3
16.3
174
184
78
10.0
10.8
UJ
80
846
80
13.5
144
154
164
17.5
18.6
80
10.1
10.9
11.7
85
902
82
13.5
14.5
15.5
16.5
17.6
18.7
82
10^
11.0
11.8
90
9 18
84
13 6
14.6
15.6
16.6
17.6
18.7
84
10-3
U.l
11.9
95
933
86
13.6
14.6
15.6
16.6
17.7
18.8
86
104
11.2
12.0
100
9 48
88
13.7
14.6
156
16.7
17.7
18.8
88
104
IIJ
12i)
90
13.7
14.6
15.6
16.7
17.7
18.8
90
10.5
U^
12j0
2ft
TABLE IV.
Meaxi Rtdueed Re/ineti
lESSS!
Reduad
Refraction.
DiflT
10 1'.
Apparent
Alliuide.
Reduced
Refiaclion.
Apparent
Altitude.
Reduced
Refraction.
Apparent
Altitude.
Reduced
Refraction.
O 1
1
«
II
O 1
1
II
O 1
1 II
o
1
f H
5 0
54^
1.6
10 0
5
24.1
15 0
3 41.7
27
0
2 7.8
5
46.3
1.5
5
5
21.6
10
3 39.4
27
30
2 5.7
10
38.6
1.5
10
5
19.2
20
3 37.1
28
0
2 3.7
15
31.0
1.5
15
5
16.8
30
3 34.9
28
30
2 1.7
20
23.7
1.4
20
5
14.4
40
3 32.7
29
0
1 59.8
25
16.5
1.4
25
5
12.1
50
3 30.6
29
30
1 58.0
5 30
9
9.5
1.4
10 30
5
9.8
16 0
3 28.5
30
0
1 56.2
35
9
2.7
1.3
35
5
7.5
10
3 26.5
30
30
1 54.5
40
8
56.0
1.3
40
5
5.3
20
3 24.5
31
0
1 52.8
45
8
49.5
1.3
45
3.1
30
3 22.6
31
30
1 51.2
50
8
43.1
1.2
50
0.9
40
3 20.7
32
0
1 49.7
65
8
36.9
1.2
55
58.8
50
3 18.8
32
30
1 48.2
6 0
8
30 9
1.2
11 0
56.7
17 0
3 16.9
33
0
1 46.7
5
8
24.9
1.2
5
54.6
10
3 15.1
33
30
1 45.3
10
8
19.1
1.1
10
52.5
20
3 13.4
34
0
1 44.0
15
8
13.4
1.1
15
50.5
30
3 11.6
34
30
1 42.7
20
8
7.8
l.l
20
48.5
40
3 9.9
35
0
1 41.4
25
8
2.4
l.l
25
46.6
50
3 8.2
35
30
1 40.2
6 80
7
57.0
1.0
11 30
44.6
18 0
3 6.6
36
0
1 39.0
35
7
51.8
1.0
35
42.7
10
3 5.0
36
30
1 37.8
40
7
46.7
1.0
40
40.8
20
3 3.4
37
0
1 36.7
45
7
41.7
1.0
45
38.9
30
3 1.8
37
30
1 35.6
50
7
36.7
1.0
50
37.1
40
3 0.3
38
0
1 34'.5
55
7
31.9
0.9
55
35.3
50
2 58.8
38
30
1 33Ji
7 0
7
27.2
0.9
12 0
33.5
19 0
2 57.3
39
0
1 32.5
5
7
22.6
0.9
5
31.7
10
2 55.9
39
30
1 31.5
10
7
18.0
0.9
10
30.0
20
2 54.4
40
0
1 30.6
15
7
13.6
0.9
15
28.3
30
2 53.0
40
30
1 29.6
20
7
9.2
0.9
20
26.6
40
2 51.6
41
0
1 28.7
25
7
4.9
0.8
25
24.9
50
2 50.3
41
30
1 27.8
7 30
7
0.8
0.8
12 30
23.2
20 0
2 49.0
42
0
1 27.0
35
6
56.6
0.8
35
21.6
10
2 47.6
42
80
1 26.2
40
6
52.6
0.8
40
20.0
20
2 46.4
43
0
1 25.4
45
6
48.6
0.8
45
18.4
30
2 45.1
43
30
1 24.6
50
6
44.8
0.8
50
16.8
40
2 43.8
44
0
1 23.8
55
6
40.9
0.7
55
15.2
50
2 42.6
44
30
1 23.1
8 0
6
87.2
0.7
13 0
13.7
21 0
2 41.4
45
0
1 224
5
6
33.5
0.7
5
12.2
10
2 40.2
46
0
1 21.0
10
6
29.9
0.7
10
10.7
20
2 39.0
47
0
1 19.6
15
6
26.3
0.7
15
9.2
30
2 37.9
48
0
1 184
20
6
22.8
0.7
20
7.7
40
2 36.7
49
0
1 17.2
25
6
19.4
0.7
25
6.3
50
2 35.6
50
0
1 16.0
8 30
6
16.0
0.7
13 30
4.8
22 0
2 34.5
51
0
1 15.0
35
6
12.7
0.6
35
3.4
10
2 33.4
52
0
1 13.9
40
6
9.5
0.6
40
2.0
20
2 32.4
53
0
1 13.0
45
6
6.3
0.6
45
0.6
30
2 31.3
54
0
1 12.0
50
6
3.1
0.6
50
3
59U3
40
2 30.3
55
0
1 11.1
55
6
0.0
0.6
55
3
57.9
50
2 29.2
56
0
1 10.8
9 0
5
57.0
0.6
14 0
3
56.6
23 0
2 28.2
57
0
1 9.5
5
5
54.0
0.6
5
3
55.3
20
2 26.3
58
0
1 8.7
10
5
51.1
0.6
10
3
54.0
40
2 24.4
59
0
1 8.0
15
5
48.2
0.6
15
3
52.7
24 0
2 22.5
60
0
1 7.3
20
5
45.3
0.6
20
3
51.4
20
2 20.7
62
0
1 6.0
25
5
42.5
0.5
25
3
50.1
40
2 18.9
64
0
I 4.9
9 30
5
398
0.5
U 30
3
48.9
25 0
2 17.2
66
0
1 3.8
35
5
37.0
0.5
35
3
47.6
20
2 15.5
68
0
1 2.9
40
5
34.4
0.5
40
3
46.4
40
2 13.9
70
0
1 2.0
45
5
31.7
0.5
45
8
45.2
26 0
2 12.3
73
0
1 1.0
50
5
29.2
0.5
50
3
44.0
20
2 10.8
76
0
1 0.1
55
5
26.6
0.5
55
3
42.8
40
2 9.3
80
0
0 59.2
10 0
5
24.!
15 0
3
41.7
27 0
2 7.8
90
0
0 58.3
64
29
TABLE IV. A.
Correction of the Mean Refraction for the Heieht of the Barometer.
Barometer.
Subtracu
MEAN REFRACTION.
O'
1'
a'
8'
_4'
g^
6'
7'
8'
— f —
6
r
lO'
Add.
6
n
3ft
n
6
aft
H
3ft
d
aft
&
aft
6^
aft
^
aft
aft
6
If
II
II
II
n
..
„
n
N
II M
J, u
"'5
_«
27.50
0
2
5
10
12
15
17
20
23
25
28
30
33
35 38
40 43
45i48
51
27^5
0
2
5
10
12
15
17
20
22
25
27
30
32
35,37
44' 12
45
47
50
27.60
0
2
5
10
12
1417
19
22
24
27
29
31
34 36
l\\' n
44
46
49
27.65
0
2
5
9
12
14 16
19
21
24
26
28
31
33 36
ii" Kf
43
45
48
27.70
o; 2
5
9
11
14 16
18
21
23
25
28
30
32^35
a: i^
42
44
47
27.75
0
2
4
9
11
13 16
18
20
23
25
27
29
32 34
3C J 9
41
43
46
27.80
0
2
4
9
11
13 15
18
20
22
24
27
29
31 33
»N-» \%
40
42
45
27.85
0 2
4
9
11
13 15
17
19
22
24
26
28
30 32
35 H7
39
41
44
27.90
0
2
4
8
10
13
15
17
19
21
23
25
27
30 32
54 .it)
38
40
43
27.95
0
2
4
8
10
12
14
16
18
21
23
25
27
2931
^ -15
37
39
42
28.00
0
2
4
8
10
12
14
16
18
20
22
24
26
28 30
3S> :u
36
38
41
28.05^
0
2
4
8
10
12
14
16
18
20
22
24
25
27 29
31 vi
35
37
39
28.10
0
2
4
8
9
11
13
15
17
19
21
23
25
27 29
ai .'S3
34
36
38
28.15
0
2
4
7
9
11
13
15
17
19
20
22
24
26 28
au i\l
34
36
37
28.20
0
2
4
7
9
11
13
14
16
18
20
22
24
25 27
£^ a
33
35
36
28.25
0
2
3
7
9
10
12
14
16
18
19
21
23
25 26
2b -Ui
32
34
35
28.30
0
2
3
7
8
10
12
14
15
17
19
21
22
24126
2: 2^
31
33
34
28.35
0
2
3
7
8
10
12
13
15
17
18
20
22
2325
27 l'^^
30
32
33
2840
0
2
3
6
8
10
11
13
14
16
18
19
21
23 24
2ft -7
29
31
32
2d.45
0
2
3
6
8
9
11
12
14
16
17
19
20
22 23
2^ 11
28
30
31
28.50
0
3
6
7
9
10
12
14
15
17
18
20
21 23
24 2B
27
29
30
31.50
28.55
0
3
4
6
7
9 10
12
13
15
16
17
19
20,22
23 /5
26
28
29
31.45
28.60
0
3
6
7
8
10
11
13
14
15
17
18
2021
2.1 Ji
25
27
28
31.40
28.65
0
3
5
7
8
9
Il|12
14
15
16
18
19 20
21 1*3
25 26
27
31.35
28.70
0
3
5
6
8
9
10
12
13
1*
16
17
18.20
21 21
24 25
26
31.30
28.75
0
2
5
6
7
9
10
11
13 14
15
16
18 19
20 n
23 24
25
31.25
28.80
0
2
5
6
7
8
10
11
12 13
14
16
17 18
1* -I
22
23
24
31.20
28 85
0
2
3
5
6
7
8
9
10
12
13
14
15
16 17
19 IQ
21
22
23
31.15
28.90
0
2
3
4
5
7
8
9
10
11
12
13
14
16 17
U (9
20 21
22
31.10
28.95
0
2
3
4
5
6
7
8
9
1112
13
14
15 16
17 \%
19.20
21
31X)5
29.00
0
2
3
4
5
6
8
9
1011
12
13
14 15
lf> 17
18 19
20
SIJOO
29X)5
0
2
3
4
5
6
8
9
10,11
11
12
13 14
l.i Ifi
17 18
19
30.95
29.10
0
2
3
4
4
5
7
8
9
10
11
12
13 14
15 IS
16
18
30.90
29.15
0
2
3
3
4
5
7
8
9
9
10
11
12 13
14 15
15
17
30.85
29.20
0
2
2
3
4
5
6
7
8
9
10 10
11,12
Kl 14
15
16
30.80
29.25
0
'
2
3
4
4
6
7
8
8
9 10
u'li
Vi 13
14
15
30.75
29.30
0
2
3
3
4
6
6
7
8
8 9
10 11
n 12
13
14
30.70
29.35
0
2
3
3
4
5
6
7
7
8 9
9
10
10 u
12
13
30.65
29.40
0
2
2
3
4
5
5
6
7
7
8
8
9
10 1 1)
11
12
30.60 '
29.45
0
2
2
3
3
4
5
6
6
7
7
8
8
Q 9
10
11
30.55
29.50
0 0
1
2
2
3
4
5
5
6
6 7
7
8
H N
9
10
10
30.50.
29.55
0 0
I
2| 2
3; 3
4
4
5
5
5 6
6
7
? -r^
8
9
30.45
29.60
o'
0
1
2 2
2 3
3; 4
4
4
5; 5
6
6
'■ 7
7
8
30.40 :
29.65
0
0
1
l! 2
2 2
Si 3
4
4
41 5
5
5
r, 1.
6
7
30.^5 1
29.70
0
0
1
1
1
2 2
2 3
3
3
^1^
4
5
;> :..
5
6
30.30
29.75
0
0
0
1
1
I
1 2
2 2
3
3
3 3
4
4
i 1
5
•^
5
30.25 1
29.80
0
0
0
1
1
1
1 1
2 2
2
2
2 3
3
3
J. J
4
4
30.20 ,
29.85
0
0
0
0
1
1
1 1
11 1
2
2
2 2
2, 2
2 3
3
3
30.15 1
29.90
0
0
0
0
0
0
1 1
>i 1
1
1
I 1
1 2
2 2
2
2
30.10
29.95
0
0
0
0
0
0
0 0
0 0
1
1
1 1
1
1
\ *
1
1
1
30.05 1
30.00
0
0
0
0
0 0
oio
00 0
0
0
0 0
0
0
0 0
0
0
0
9OJ0O
Subtract.
Baimneter
6
a«
6
3ft
«3A
ft^3ft
7;^
6
3ft
d aft
6
aft
daft
8'
Tja^
6
1
o*
r
%'
"s"
4'
I
I'
T
9*
ic
MEA
N R
EFRACTION.
- ■ !
.10
TABLE IV. B.
OorreeUoa of the Mean Refraction for the Heisht of theThennometer.
Tbermom.
Add.
MEAN REFRACTION.
Thermom.
Add.
O'
V
9'
8'
4'
ft'
6'
7'
W
9'
lO'
&
3k
^
3«
&
3ft
±
3ft
£
3ft
&_
aft
II
H
aft
II
&^3&
II II
&
u
aft
&
3ft
A
o
II
H
H
II
M
u
n
It
II
II
II
II
II
II
II
o
—10
0
4
8
12
16
20
24
28
33
37
41
46
50
55
60 65
70
75
80,85
90
—10
— 8
0
4
8
12
15
19
23
27
31
36
40
44
48
53
58,62
67
72
77
82
87
— 8
— 6
0
4
7
11
15
19
22
26
30
34
38
42
47
51
55|60
64
69
74
79
84
— 6
— 4
0
4
7
11
14
18
22
25
29
33
37
41
45
49
53
57
62
66
71
76
80
— 4
— 2
0
3
7
10
14
17
21
24
28
31
35
39
43
47
51
55
59
64
68
72
77
— 2
0
0
3
7
10
13
16
20
23
27
30
34
37
41
45
49
53
57
61
65
69
74
0
2
0
3
6
9
12
16
19
22
25
29
32
36
39
43
47
50
54
58
62
66
70
2
4
0
3
6
9
12
15
18
21
24
28
31
34
37
41
44
48
52
55
59
63
67
4
6
0
3
6
8
11
14
17
20
23
26
29
32
36
39
42
46
49
53
56
60
64
6
8
0
3
5
8
11
14
16
19
22
25
28
31
34
37
40
43
47
50
54
57
61
8
10
0
3
5
8
10
13
15
18
21
24
26
29
32
35
38
41
44
48
51
54
58
10
U
0
2
5
10
13
15
18
20
23
26
28
31
34
37
40
43
46
49
53
56
11
12
0
2
5
10
12
15
17
20
22
25
28
30
33
36
39
42
45
48
51
54
12
13
0
2
5
9
12
14
17
19
22
24
27
30
32
35
38
41
44
47
50
53
13
14
0
2
5
9
11
14
16
19
21
24
26
29
31
34
37
40
42
45
48
51
14
15
0
2
4
9
11
13
16
18
20
23
25
28
30
33
36
38
41
44*47
50
15
16
0
2
4
9
11
13
15
18
20
22
25
27
29
32
35
37
40
43145
48
16
17
0
2
4
8
10
13
15
17
19
21
24
26
29
31
33
36
39
41
44
47
17
18
0
2
4
8
10
12
14
16
19
21
23
25
28
30
32
35
37
40
43
45
18
19
0
2
4
8
10
12
14
16
18
20
22
24
27
29
31
34
36
39
41
44
19
20
0
2
4
8
9
11
13
15
17
19
22
24
26
28
30
33
35
37 40
42
20
21
0
2
4
7
9
11
13
15
17
19
21
23
25
27
29
31
34
36J33
41
21
22
0
2
3
7
9
11
12
14
16
18
20
22
24
26
28
30
32
35
37
39
22
23
0
2
3
7
8
10
12
14
15
17
19
21
23
25
27
29
31
33
36
38
23
24
0
2
3
6
8
10
11
13
15
17
18
20
22
24
26
28
30
32
34
36
24
25
0
2
3
6
8
9
11
13
14
16
18
19
21
23
25
27
29
31
33
35
25
26
0
1
3
6
7
9
11
12
14
15
17
19
20
22 24
26
28
29
31
33
26
27
0
1
3
6
7
9
10
12
13
15
16
18
19
21
23
25
26
38
30
32
27
28
0
1
3
5
7
8
10
11
12
14
15
17
19
20
22
23
25
27
29
30
28
29
0
I
3
5
6
8
9
11
12
13
15
16
18
19
21
22
24
26
27
29
29
30
0
1
2
5
6
7
9
10
11
13
14
15
17
18
20
21
23
24
26
28
30
31
0
1
2
5
6
7
8
9
11
12
13
15
16
17
19
20
22
23
25
26
31
32
0
1
2
4
6
7
8
9
10
U
13
14
15
16
18
19
20
22
23
25
32
33
0
1
2
4
5
6
7
8
10
11
12
13
14
15
17
18
19
21
22
23
33
34.
0
1
2
4
5
6
7
8
9
10
11
12
13
14
16
17
18
19
21
22
34
35
0
1
2
4
5
6
6
7
8
9
10
11
13
14
15
16
17
18
19
20
35
36
0
1
2
3
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
36
37
0
1
2
2
3
4
5
6
6
7
8
9
10
11
12
13
14
15
16
17
18
37
38
0
I
2
3
4
4
5
6
7
7
8
9
10
11
12
13
13
14
15
16
38
39
0
1
2
3
3
4
5
5
6
7
8
8
9
10
11
11
12
13
14
15
39
40
0
1
2
2
3
4
4
5
6
6
7
8
8
9
10
10
11
12
13
13
40
41
0
1
2
2
3
3
4
4
5
6
6
7
7
8
9
9
10
11
11
12
41
42
0
0
2
2
3
3
4
4
5
5
6
7
7
8
8
9
9
10
11
42
43
0
0
2
2
3
3
3
4
4
5
5 6|
6
7
7
8
8
9
9
43
44
0
0
1
2
2
3
3
3
4
4
4
5
5
6
6
7
7
8
8
44
45
0
0
1
1
1
2
2
2
3
3
3
4
4
4
5
5
6
6
6
7
45
46
0
0
0
1
1
1
2
2
2
2
2
3
3
4
4
4
4
5
5
5
46
47
0
0
0
1
1
1
1
1
2
2
2
2
2
3
3
3
3
4
4
4
47
48
0
0
0
0
0
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
3
48
49
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
I
1
1
1
49
50
0
0
0
0
aft
0
&
0
3ft
0
0
0
0
0
0
0 0
0
0
0
0
0
0
0
50
Add.
&
aT
6
aft
&
aft
A' aft
&
aft
^ aft
&
aft
H
Add.
i
y
V
9'
Z'
4L'
ft'
6'
r
8'
"9^
10'
Thennoro
' 1
Thermom.
J
[
A
lEAN REFRACTION. |
31
TABLE IV. B.
Cbmction of the Mean Refraction for the Heifht of ttkeTbermometer.
Tbermom.
Subtract
MEAN REFRACTION. |
TbMDom.
>l
r\
S'
8'
4'
.'J
J^'A
r
8'
9*
lO'
6
3^
6
9&_
7]
3&
a a&
jjaft
£
3«
^
3^
71
a<
^
a&
1!?*
A
o
II
M
II
II
A
n
II II
":i"T
II
II
II
„
II
«
M
«
If! «
n
0
50
0
0
0
0
0
0
0
0
0 0
0
0
0
0
0
0
0
0
0
0
0
50
51
0
0
0
0
0
0
0
0
0
I
1
1
1
1
1
1
1
1
51
52
0
0
0
0
0
1
1
1
1
1
1
2
2
2
2
2
8
52 ,
53
0
0
0
I
1
I
1
1
2
2
2
2
2
3
3
4
53
54
0
0
0
1
1
1
2
2
2
3
3
3
3
4
5
5
54 I
55
0
0
1
1
2
2
2
3
3
4
4
5
6
6
55 1
56
0
0
1
1
2
2
3
4
4
4
5
6
7
8
56
57
0
0
1
2
2
2
3
3
4
5
5
6
7
8
9
57 I
58
0
0
I
2
2
3
3
4
5
5
6
7
8
9
10
10
58
59
0
1
2
2
3
3
4
4
5
6
6
8
9
10
10
11
12
59
60
0
2
2
3
3
4
5
6
7
7
9
10
11
12
13
60
61
0
2
3
3
4
4
5
7
7
8
9
10
11
12
13
14
61
62
0
2
3
3
4
5
6
7
8
9
10
11
12
14
15
15
62
63
0
2
3
5
5
6
8
8
9
10
11
12
13
15 16
17
63
64
0
2
2
3
5
6
7
8
9
10
11
12
13
14
16 17
18
64
65
0
2
3
3
5
6
7
8
9
10
11
12
13
14
15
17 18
19
65
66
0
2
3
4
6
6
7
8
9
10
11
12
14
15
16
I81I9
20
66
67
0
2
3
4
6
7
8
9
10
11
12
13
14
16
17
I9I2O
22
67
68
0
2
3
4
6
7
8
9
11
U
13
14
15
16
18
20i22
23
68
69
0
2
3
4
7
8
9
10
11
12
13
15
16 17
19
20
21 23
24
69
70
0
2
3
5
7
8
9
10
12
12
14
16
17 18
20 21
22 24
25
70
71
0
2
5
7
8
10 11
12
13
15 16
18;i9
2022
23125
27
71
72
0
2
5
8
9
10
11
13
14
16!l7
18
20
21 23
25 26
28
72
73
0
3
5
8
9
n
12
13
14
16118
19
21
22 24
26 27
29
73
74
0
3
5
8 10
11
12
14
15
17|18
20
22
23 25
27 28
30
74
75
0
3
6
7
8 10
11
13
14
16
18*19
21
22
24*26
28 29
31
75
76
0
3
6i 7
9;io
12il3
15 16
18 20
22
23
25 27
29:31
32
76
77
0
3
5
61 8
9|11
12
14
16
17
19,21
22 24
26 28
30 32
34
77
78
0
2
3
5
6
8
9'n
13
14
16
18
20121
23 25
27 29
3l!33
35
78
79
0
2
5
6
8
10 11
13
15
17
18
20 22
24 26
28 30
32,34
36
79
80
0
2
5
7
8
lo'l2
14
15
17
19
21 '23
25I27
29;31
33
35
37
80
81
0
2
5
7
9
10 12
14il6
18'20
21 24
26 28
30 32
34
36
38
81
82
0
2
5
7
9
ll'l3
Ujl6
I812O
22 24
26 28
31 33
35 37
40
82
83
0
2
5
7
9
11 13
15117
19121
23 25
27 29
31 34
36 38
41
83
84
0
2
6
8
9
1113
15 17
1921
23 26
28:30
32 35
37 39
42
84
85
0
2
6
8'l0
12|14
16 18
20,22
24 26
29I3I
33 36
38 40
43
85
86
0
2
6
S'lO
I2I14
16 18
20
23
25 27
29 32
34 37
39 '42
44
86
87
0
2
6
8 10
12*14
17 19
21
23
25 28
30 32
35 38
40 43
45
87
88
0
2
6
8110
13
15
17 19
21
24
26 28
31.33
3638
41 '44
46
88
89
0
2
6
9|11
13
15
17|20
22
24
27 29
32.34
37:39
42 45
48
89
90
0
2
7
911
13
16
18 20
23*25
27 30
32135
38'40
43 46
49
90
91
0
2
7
9 11
14
16
18 21
23125
28 31
33 36
39 41
44 47
50
91 (
92
0
2
7
9|11
14
16
19 21
24
26
29 31
34 37
39 42
4548
51
92 '
93
0
2
7
912
14
17
19 22
24
27
29 32
35 37
40 43
46*49
52
93
94
0
2
7
10 12
14
17
19-22
25
27
30 33
35 38
4144
47 50
53
94
95
0
2
7
10 12
15
17
20^22
25
28
30 33
36 39
42I45
48*51
54
95
96
0
2
7
10 12
1518
20 23
26i28
31 34
37 40
43' 46
49,52
55
96
97
0
3
8
10 13
15 18
21123
26
29
32 35
38,41
44 47
50'53
56
97
98
0
3
8
10 13
16 18
21
24
27
29
32 35
38,41
44 48
51 54
58
98
99
0
3
8
11 13
16.19
21
24
27
30
33 36
39|42
45 49
52 55
59
99
100
0
8
5
8
11 13
16 19
22-25
28
31
34 37
40^43
46 50
53 56
60
_100_,
Sublnci.
1 tnmnoni.
6
26
6
;«
It
a'
6 36
8'
j'aA
&
3&
6^
7:^
«36
8'
J 3&
9*
4
1#'
Sbbinct.
ThermoiiL 1
_0'
r
~4''| «'
7'
MEAl
N REFRACTION.
32
TABLE V. LOG. A.
Logs A, B, C, and D, for Computini^ the Pint Cometion of the Lunar Distance.
App.
All.
ofD
REDUCED PARALLAX AND REFRACTION OF J>, |!
41'
.0288
49'
0301
44'
0308
49'
46/
47'
49' 1 49'
0348
51'
59'
0361
58'
54'
55'
50 0'
0295
0315
0321
0328
0335,0341
0355
0368
2
.0286
0293
0299
0306
0313
0319
0326
0333 10339
0346
0352
0359
0366
4
.0284
0291
0297
0304
0311
0317
0324
0330' 0337
0344
0350
0357
0363
6
.0282
0289
0296
0302
0309
0315
0322
0328 0335
0341
0348
0354
0361
8
.0281
0287 1 0294
0300
0307
0313
0320
0326
0333
0339
0346
0352
0359
5 10
.0279
0285*0292
0298
0305
0311
0318
0324
0331
0337
0344
0350
0356
12
.0277
0284,0290
0296
0303
(m)9
0316
0322
0329
0335
0341
0348
0354
U
.0275
0282; 0288
0295
0301
0307
0314
0320
0327
0333
0339
0346
0352
16
.0274
0280 0286
0293
0299
0306
0312
0318
0325
0331
0337
0344
0350
18
.0272
0278 0285
0291
0297
0304
0310
0316
0323
0329
0335
0341
0348
5 20
.0270
0277 0283
0289
0296
0302
0308
0314
0321
0327
0333
0339
0346
22
.0269
0275 0281
0288
0294
0300
0306
0313
0319
0325
0331
0337
0344
24
.0267
0273 0280
0286
0292
0298
0304
0311
0317
0323
0329
0335
0341
26
.0265
0272 0278
0284
0290
0296
0303
0309
0315
0321
0627
0333
0339
0346
28
.0264
0270 0276
0282
0289
0295
0301
0307
0313
0319
0325
0331
0337
0344
5 30
.0262
0268' 0275
0281
0287
0293
0299
0305
0311
0317
0323
0329
0335
0342
32
.0261
0267 0273
0279
0285
0291
0297
0303
0309
0315
0321
0327
0334
0340
34
.0259
0265 0271
0277
0283
0290
0296
0302
0308
0314
0320
0326
0332
0338
36
.0258
0264 0270
0276
0282
0288
0294
0300
0306
0312
0318
0324
0330
0336
38
0262 0268
0274
0280
0286
0292
0298
0304
0310
0316
0322
0328
0334
5 40
0261 1 0267
0273
0279
0285
0290
0296
0302
0308
0314
0320
0326
0332
42
0259 0265
0271
0277
0283
0289
0295
0301
0306
0312
0318
0324
0330
44
0258 0264
0270
0275
0281
0287
0293
0299
0305
0311
0316
0322
0328
46
0256 0262
0268
0274
0280
0286
0291
0297
0303
0309
0315
0320
0326
48
0255.0261
0267
0272
0278
0284
0290
0296
0301
0307
0313
0319
0324
5 50
0253 '0259
0265
0271
0277
0282
0288
0294
0300
0305
0311
0317
0323
52
0252
0258
0264
0269
0275
0281
0287
0292
0298
0304
0309
0315
0321
54
0251
0256
0262
0268
0274
0279
0285
0291
0296
0302
0308
0313
0319
56
0249
0255
0261
0266
0272
0278
0283
0289
0295
0300
0306
0312
0317
58
0248
0254
0259
0265
0271
0276
0282
0287
0293
0299
0304
0310
0316
6 0
0247
0252
0258
0263
0269
0275
0280
0286
0291
0297
0303
0308
0314
2
0245
0251
0256
0262
0268
0273
0279
0284
0290
0295
0301
0307
0312
4
0244
0249
0255
0261
0266
0272
0277
0283
0288
0294
0299
0305
0310
6
0243
0248
0254
0259
0265
0270
0276
0281
0287
0292
0298
0303
0309
8
0241
0247
0252
0258
0263
0269
0274
0280
0285
0291
0296
0302
0307
6 10
0240
0246
0251
0256
0262
0267
0273
0278
0284
0289
0295
0300
0306
12
0239
0244
0250
0255
0261
0266
0271
0277
0282
0288
0293
0299
0304
14
0237
0243
0248
0254
0259
0265
0270
0275
0281
0286
0292
0297
0302
16
0236
0242
0247
0252
0258
0263
0269
0274
0279
0285
0290
0295
0301
18
0235
0240
0246
0251
0257
0262
0267
0273
0278
0283
0289
0294
0299
6 20
0234
0239
0245
0250
0255
0261
0266
0271
0276
0282
0287
0292
0298
22
0233
0238
0243
0249
0254
0259
0264
0270
0275
0280
0286
0291
0296
24
0231
0237
0242
0247
0253
0258
0263
0268
0274
0279
0284
0289
0295
26
0236
0241
0246
0251
0257
0262
0267
0272
0277
0283
0288
0293
28
0234
0240
0245
02.50
0255
0260
0266
0271
0276
0281
0286
0292
0297
6 30
0233
0238
0244
0249
0254
0259
0264
0270
0275
0280
0285
0290
0295
32
0232
0237
0242
0248
0253
0258
0263
0268
0273
0278
0284
0289
0294
34
0231
0236
0241
0246
0251
0257
0262
0267
0272
0277
0282
0287
0292
36
0230
0235
0240
0245
0250
0255
0260
0266
0271
0276
0281
0286
0291
38
0229
0234
0239
0244
0249
0254
0259
0264
0269 0274
0279
0284
0290 1
6 40
0227
0232
0238
0243
0248
0253
0258
0263
0268 0273
0278
0283
0288
42
0226
0231
0236
0241
0246
0252
0257
0262
0267
0272
0277
0282
0287
44
0225
0230
0235
0240
0245
0250
0255
0260
0265
0270
0275
0280
0285
46
0224
0229
0234
0239
0244
0249
0254
0259
0264
0269
0274
0279
0284
48
0223
0228
0233
0238
0243
0248
0253
0258
0263 0268
0273
0278
0283
6 50
0222
0227
0232
0237
0242
0247
0252
0257
0262 0266
0271
0276
0281
52
0221
0226
0231 1 0236
0241
0246
0250
0255
O260I 0265
0270
0275
0280
54
0220
0225
0230, 0235
0239
0244
0249
0254
0259
0264
0269
0274
0279
56
0219
0224
0229
0233
0238
0243
0248
0253
0258
0263
0267
0272
0277
58
0218
0223
0227
0232
0237
0242
0247
0252
0257
0261
0266
0271
0276
7 0
0217
0222
0226] 0231' 0236
0241
0246
0251
0255
0260
0265
0270
0275
33
TABLE V. LOG. A.
Loga. A, B. C. and D, for Lunirs.
of >.
REDUCED PARALLAX AND REFRACTION OF C- 1
44'
4«'
0226
46^
0231
4r
0236
48*
0241
49'
0246
90'
tkV
59'
58'
0265
54'
0270
55'
0275
1^
57'
1
70 0'
.0222
0251
0255
0260
3
.0220
0225
0230
0234
0239
0244
0249
0254
0258
0263
0268
0273
6
.0218
0223
0228
0233
0238
0242
0247
0252
0257
0261
0266
0271
9
.0217
0222
0226
0231
0236
0241
0245
0250
0255
0260
0264
0269
12
.0215
0220
0225
0230
0234
0239
0244
0248
0253
0258
0262
0267
7 15
.0214
0219
0223
0228
0233
0237
0242
0247
0251
0256
0261
0265
18
.0213
0217
0222
0226
0231
0236
0240
0245
0250
0254
0259
0263
21
.0211
0216
0220
0225
0230
0234
0239
0243
0248
0253
0257
0262
24
.0210
0214
0219
0223
0228
0233
0237
0242
0246
0251
0255
0260
27
.0208
0213
0217
0222
0227
0231
0236
0240
0245
0249
0254
0258
7 30
.0207
0211
0216
0220
0225
0230
0234
0239
0243
0248
0252
0257
33
.0206
0210
0215
0219
0224
0228
0232
0237
0241
0246
0250
0255
36
X)204
0209
0213
0218
0222
0227
0231
0235
0240
0244
0249
0253
39
.0203
0207
0212
0216
0221
0225
0229
0234
0238
0243
02^17
0252
42
.0202
0206
0210
0215
0219
0224
0228
0232
0237
0241
0246
0250
7 45
.0200
0205
0209
0213
0218
0222
0227
0231
0235
0240
0244
0248
48
.0199
0203
0208
0212
0216
0221
0225
0229
0234
0238
0242
0247
51
.0198
0202
0206
0211
0215
0219
0224
0228
0232
0237
0241
0245
0249
54
.0196
0201
0205
0209
0214
0218
0222
0227
0231
0235
0239
0244
0248
57
.0195
0200
0204
0208
0212
0217
0221
0225
0229
0234
0238
0242
0246
8 0
.0194
0198
0203
0207
0211
0215
0219
0224
0228
0232
0236
0241
0245
3
.0193
0197
0201
0206
0210
0214
0218
0222
0227
0231
0235
0239
0243
6
.0192
0196
0200
0204
0208
0213
0217
0221
0225
0229
0233
0238
0242
9
0195
0199
0203
0207
0211
0215
0220
0224
0228
0232
0236
0240
12
0193
0198
0202
0206
0210
0214
0218
0222
0227
0231
0235
0239
8 15
0192
0196
0201
0205
0209
0213
0217
0221
0225
0229
0233
0237
18
0191
0195
0199
0203
0207
0212
0217
0220
0224
0228
0232
0236
21
0190
0194
0198
0202
0206
0210
0214
0218
0222
0226
0231
0235
24
0189
0193
0197
0201
0205
0209
0213
0217
0221
0225
0229
0233
27
0188
0192
0196
0200
0204
0208
0212
0216
0220
0224
0228
0232
8 30
0187
0191
0195
0199
0203
0207
0211
0215
0219
0223
0226
0230
33
0186
0190
0193
0197
0201
0205
0209
0213
0217
0221
0225
0229
36
0184
0188
0192
0196
0200
0204
0208
0212
0216
0220
0224
0228
39
0183
0187
0191
0195
0199
0203
0207
0211
0215
0219
0223
0226
42
0182
0186
0190
0194
0198
0202
0206
0210
0214
0217
0221
0225
8 45
0181
0185
0189
0193
0197
0201
0205
0208
0212
0216
0220
0224
48
0180
0184
0188
0192
0196
0200
0203
0207
0211
0215
0219
0223
51
0179
0183
0187
0191
0195
0198
0202
0206
0210
0214
0218
0221
54
0178
0182
0186
0190
0193
0197
0201
0205
0209
0212
0216
0290
57
0177
0181
0185
0189
0192
0196
0200
0204
0208
0211
0215
0219
9 0
0176
0180
0184
0189
0191
0195
0199
0203
0906
0210
0214
0218
3
0175
0179
0183
0186
0190
0194
0198
0201
0205
0209
0213
0216
6
0174
0178
0182
0185
0189
0193
0197
0200
0204
0208
0211
0215
9
0173
0177
0181
0184
0188
0192
0196
0199
0203
0207
0210
0214
12
0172
0176
0180
0183
0187
0191
0194
0198
0202
0206
0209
0213
9 15
0171
0175
0179
0182
0186
0190
0193
0197
0201
0204
0208
0212
18
0170
0174
0178
0181
0185
0189
0192
0196
0200
0203
0207
0211
21
0170
0173
0177
0180
0184
0188
0191
0195
0199
0202
0206
0209
24
0172
0176
0179
0183
0187
0190
0194
0198
0201
0205
0208
27
0171
0175
0179
0182
0186
0189
0193
0196
0200
0204
0207
9 30
01 70
0174
0178
0181
0185
0188
0192
0195
0199
0203
0206
33
0170
0173
0177
0180
0184
0187
0191
0194
0198
0201
0205
36
0169
0172
0176
0179
0183
0186
0190
0193
0197
0200
0204
39
0168
0171
0175
0178
0182
0185
0189
0192
0196
0199
0203
42
0167
0170
0174
0177
0181
0184
0188
0191
0195
0198
0202
9 45
0166
0169
0173
0176
0180
0183
0187
0190
0194
0197
0201
48
0165
0169
0172
0176
0179
0182 0186
0189
0193
0196
0200
0203
51
0164
0168
0171
0175
0178
0182
0185
0188
0192
0195
0199
0202
54
0163
016710170
0174
0177
0181
0184
0187
0191
0194
0198
0201
57
0163
0166 0169
U173
0176
0180
0183
0186
0190
0193
0197
0200
10 0
__
0162
016510169
0172
0175
0179
0182
0186
0189
0192
0196
0199
31
TABLE V. LOG. A.
Logs. A, B, C, and D, for Lunan.
of J.
REDUCED PARALLAX AND REFRACTION OF >. |1
46/
4r
48'
49^
ftC
ftr
99'
58'
54'
5ft'
56'
57'
58'
10° 0'
•0162
0165
0169
0172
0175
0179
0182
0186
0189
0192
0196
0199
5
•0160
0164
0167
0171
0174
0177
0181
0184! 0187
0191
0194
0197
10
•0159
0162
0166
0169
0172
0176
0179
0182 0186
0189
0192
0196
15
.0158
0161
0164
0168
0171
0174
0178
0181,0184
0187
0191
0194
20
•0156
0160
0163
0166
0170
0173
0176
0179 0183
0186
0189
0192
25
•0155
0158
0162
0165
0168
0171
0175
0178
0181
0184
0188
0191
1030
.0154
0157
0160
0164
0167
0170
0173
0177
0180
0183
0186
0189
35
.0153
0156
0159
0162
0166
0169
0172
0175
0178
0181
0185
0188
40
.0151
0155
0158
0161
0164
0167
0171
0174
0177
0180
0183
0186
45
0150
0153
0157
0160
0163
0166
0169
0172
0175
0179
0182
0185
50
.0149
0152
0155
0158
0162
0165
0168
0171
0174
0177
0180
0183
55
.0148
0151
0154
0157
0160
0163
0167
0170
0173
0176
0179
0182
11 0
.0147
0150
0153
0156
0159
0162
0165
0168
0171
0174
0177
0181
5
.0146
0149
0152
0155
0158
0161
0164
0167
0170
0173
0176
0179
10
0148
0151
0154
0157
0160
0163
0166
0169
0172
0175
0178
15
0146
0149
0152
0155
0158
0161
0164
0167
0170
0173
0176
20
0145
0148
0151
0154
0157
0160
0163
0166
0169
0172
0175
25
0144
0147
0150
0153
0156
0159
0162
0165
0168
0171
0174
1130
0143
0146
0149
0152
0155
0158
0161
0164
0167
0170
0172
35
0142
0145
0148
0151
0154
0157
0160
0162
0165
0168
0171
40
0141
0144
0147
0150
0153
0156
0158
0161
0164
0167
0170
45
0140
0143
01 4&
0149
0151
0154
0157
0160
0163
0166
0169
50
0139
0142
0145
0148
0150
0153
0156
0159
0162
0165
0167
55
0138
0141
0144
0146
0149
0152
0155
0158
0161
0163
0166
12 0
0137
0140
0143
0145
0148
0151
0154
0157
0159
0162
0165
5
0136
0139
0142
0144
0147
0150
0153
0156
0158
0161
0164
10
0135
0138
0141
0143
0146
0149
0152
0154
0157
0160
0163
15
0134
0137
0140
0142
0145
0148
0151
0153
0156
0159
0162
20
0133
0136
0139
0141
0144
0147
0150
0152
0155
0158
0160
25
0132
0135
0138
0140
0143
0146
0148
0151
0154
0157
0159
1230
0131
0134
0137
0139
0142
0145
0147
0150
0153
01. •>5
0159
35
0130 0133
0136
01.38
0141
0144
0146
0149
0152
0154
0157
40
0129
0132
01.35
0137
0140
0143
0145
0148
0151 j 0153
0156
45
0129
0131
0134
0136
0139
0142
0144
0147
0150 0152
0155
0158
50
0128
0130
0133
0136
0138
0141
0143
0146
0149 0151
0154
01.56
55
0127
0129
0132
0135
0137
0140
0142
0145
0148
0150
0153
0155
13 0
0126
0129
0131
0134
0136
0139
0141
0144
0147
0149
0152
0154
5
0125
0128
0130
0133
0135
0138
0141
0143
0146
0148
0151
0153
10
0124
0127
0129
0132
0135
0137
0140
0142
0145 0147
0150
0152
15
0123
0126
0129
0131
0134
0136
0139
0141
0144 0146
0149
0151
20
0123
0125
0128
0130
0133
0135
0138
0140
0143 0145
0148
0150
25
0122
0124
0127
0129
0132
0134
0137
0139
0142! 0144
0147
0149
1330
0121
0124
0126
0129
0131
0133
0136
0138
0141 0143
0146
0148
35
0120
0123
0125
0128
0130
0133
0135
0138
OUO! 0142
0145
0147
40
0120
0122
0124
0127
0129
0132
0134
0137
0139
0142
0144
0146
45
0121
0124
0126
0128
0131
0133
0136
0138
0141
0143
0145
50
0120
0123
0125
0128
0130
0132
0135
0137
0140
0142
0145
55
0120
0122
0124
0127
0129
0132
0134
0136
0139
0141
0144
14 0
0119
0121
0124
0126
0128
0131
0133
0136
0138
0140
0143
5
0118
0121
0123
0125
0128
0130
0132
0135
0137
0139
0142
10
0117
0120
0122
0124
0127
0129
0132
0134
0136
0139
0141
15
0117
0119
0121
0124
0126
0128
0131
0133
0135
0138
0140
20
0116
0118
0121
0123
0125
0128
0130
0132
0135
0137
0139
25
0115
0118
0120
0122
0124
0127
0129
0131
0134
0136
0138
14 30
0114
0117
0119
0121
0124
0126
0128
0131
0133
0135
0137
33
0114
0116
0118
0121
0123
0125
0128
0130
0132
0134
0137
40
0113
0115
0118
0120
0122
0124
0127
0129' 0131
0134
0136
45
0112
0115
0117
0119
0121
0124
0126
0128 0130
0133
0135
50
0112
0114
0116:0118
0121
0123
0125
0127 0130
0132
0134
65
0111
0113
0116 0118
0120
0122
0124
0127
0129
0131
0133
15 0
0110
0113
0115 0117
0119|0121
0124
0126
0128
0130 '0133
35
TABLE v. LOG. A.
Logs. A, B, C, and D, for Lunan.
of J).
REDUCED PARALLAX AND REFRACTION OF }>. |
48
49
90'
0115
ftr
M'
0119
58'
54'
0124
55'
56'
57'
58'
0133
59'
15<^ 0'
.0110
0113
0117
0121
0126
0128
0130
I 10
.0109
0111
0113
0116
0118 0120
0122
0124
0127
0129
0131
20
.0108
Olio
0112
0114
0116 0119
0121
0123
0125
0127
0129
1 30
.0107
0109
0111
0113
0115 0117
0119
0121
0124
0126
0128
1 ^^
.0105
0107
0110
0112
0114|0116
0118
0120
0122
0124
0126
50
.0104
0106
0108
0110
0112
0115
0117
0119
0121
0123
0125
16 0
JOiOa
0105 0107
0109
0111
0113
0115
0117
0119
0121
0124
10
.0102
0104 0106
0108
0110|0112
0114
0116
0118
0120
0122
20
4)101
0103
0105
0107
0109*0111
0113
0115
0117
0119
0121
30
moo
0102
0103
0105
0107! 0109
0111
0113
0115
0117
0119
40
J009B
0100
0102
0104
0106 0108
0110
0112J0114
0116
0118
50
.0097
0099
0101
0103
0105 0107
0109
0111 0113
0115
0117
17 0
.0096
0098
0100
0102
0104
0106
0108
011010112
0114
0116
10
.0095
0097
0099
0101
0103
0105
0107
0109
OHO
0112
0114
20
.0094
0096
0098
0100
0102
0104
0106
0107
0109
0111
0113
80
0095
0097
0099
0101
0103
0104
0106
0108
OHO
0112
40
0094
0096
0098
0100
0101
0103
0105
0107
0109
0111
50
0093
0095
0097
0099
0100
0102
010410106
0108
0109
18 0
0092
0094
0096
0098 0099
0101
0103
0105
0107
0108
10
0091
0093
0095
0097
0098
0100
0102
0104
0105
0107
0109
20
0090
0092
0094
0096
0097
0099
0101
0103
0104
0106
0108
30
0089
0091
0093
0095
0096
0098
0100
0102
0103
0105
0107
40
0088
0090
0092
0094 0095
0097
0099
0101
0102
0104
0106
50
0088
0089
0091
0093 0094
0096
0098
0099
0101
oia3
0105
19 0
0087
0088
0090
0092
0093
0095
0097
0098
0100
0102
0104
10
0086
0087
0089
0091
0092
0094
0096 0098
0099
0101
0103
20
0085
0087
0088
0090
0092
0093
0095,0097
0098
0100
0102
30
0084
0086
0087
0089
0091
0092
0094
0096
0097
0099
0101
40
0083
0085
0087
0088
0090
0091
0093
0095
0096
0098
0100
50
0082
0084
0086
0087
0089
0090
0092
0094
0095
0097
0099
20 0
0082
0083
0085
0086
0088
0090
0091
0093
0094
0096
0098
10
0081
0082
0084
0086
0087
0089
0090
0092
0093
0095
0097
20
0080
0082
0083
0085
0086
0088
0089
0091
0093
0094
0096
30
0079
0081
0082
0084
0086
0087
0089
0090
0092
0093
0095
40
0079
0080
0082
0083
0085
0086
0088
0089
0091
0092
0094
50
0078
0079
0081
0082
0084
0085
0087
0088
0090
0091
0093
21 0
0077
0079
0080
0082
0083
0085
0086
0088
0089
0091
0092
10
0076
0078
0079
0081
0082
0084
0085
0087
0088
0090
0091
20
0076
0077
0079
0980
0082
0083
0085
0086
0087
0089
0090
SO
0075
0076
0078
0079
0081
0082
0084
0085
0087
0088
0090
40
0074
0076
0077
0079
0080
0082
0083
0084
0086
0087
0089
50
0074
0075
0076
0078
0079
0081
0082
0084
0085
0086
0088
22 0
0073
0074
0076
0077
0079
0080
0081
0083
0084
0086
0087
10
0072
0074
0075
0076
0078
0079
0081
0082
0083
0085
0086
20
0072
0073
0074
0076
0077
0079
0080
0081
0083
0084
0086
SO
0071
0072
0074
0075
0076
0078
0079 0081
0082
0083
0085
40
0070
0072
0073
0074
0076
0077
0079
0080
0081
0083
0084
50
0070
0071
0072
0074
0075
0076 0078
0079
0081
0082
0083
23 0
0069
0070
0072
0073
0074
0076 0077
0078
0080;0O81
0082
10
0068
0070
0071
0072 1 0074
0075 0076
0078
0079
0080
0082
20
0068
0069
0070
0072 0073
0074 0076 0077
0078
0080
0081
90
0067 0069
0070
0071 0072
0074 0075 0076
0078 007910080
40
0067 0068
0069 ()07l 0072
0073 0074 0076
0077 0078! 0080
50
0066 0067
0069 10070 007 I
0073
0074 0075
0076; 0078 0079
24 0
0067
0068 0069 0071
0072
0078 0074
0076 0077 1 0078
10
0066
0067 0069 0070
0071
0073 1 0074
0075! 0076
0078
20
0066
0067 ' 0068 < 0069
0071
0072 0073
0074! 0076
0077
30
0065
0066 0068,0069
0070 0071 0072
0074 0075
0076
40
0065
0066 0067 '0068
0069 00710072
0073 0074
0076
50
0064
0065 0066 1 0068
0069 ;0(»70, 0071
0072:0074
0075
25 0
0063
0065
0066
0067
0068
0069
0071
0072
0073
0074
36
TABLE V. LOG. A.
Lo9..A,B,C,tiidD.C>rLanan.
Aw
of >.
REDUCED PARALLAX AND REFRACTION OF 3>. |1
ao'
9V
5SI'
5S'
54'
59'
56'
5r
58'
59'
eo'
1
25^0'
.0063
0065
0066
0067
0068
0069
0071
0072
0073
0074
20
X)062
0064
0065
0066
0067
0068
0069
0071
0072
0073
40
.0061
0062
0064
0065
0066
0067
0068
0069
0071
0072
26 0
.0060
0061
0063
0064
0065
0066
0067
0068
0069
0071
20
.0059
0060
0062
0063
0064
0065
0066
0067
0068
0069
40
.0058
0059
0061
0062
0063
0064
0065
0066
0067
0068
27 0
.0057
0058
0060
0061
0062
0063
0064
0065
0066
0067
20
.0056
0057
0059
0060
0061
0062
0063
0064
0065
0066
40
.0055
0057
0058
0059
0060
0061
0062
0063
0064
0065
28 0
0055
0056
0057
0058
0059
0060
0061
0062
0063
0064
20
.0054
0055
0056
0057
0058
0059
0060
0061
0062
0063
40
.0053
0054
0055
0056
0057
0058
0059
0060
0061
0062
29 0
.0052
0053
0054
0055
0056
0057
0058
0059
0060
0061
20
.0051
0052
0053
0054
0055
0056
0057
0058
0059
0060
40
.0050
0051
0052
0053
0054
0055
0056
0057
0058
0059
30 0
^50
0051
0051
0052
0053
0054
0055
0056
0057
0058
20
•0049
0050
0051
0052
0052
0053
0054
0055
0056
0057
40
•0048
0049
0050
0051
0052
0053
0053
0054
0055
0056
31 0
•0047
0<H8
0049
0050
0051
0052
0053
0053
0054
0055
20
•0047
0047
0048
0049
0050
0051
0052
0053
0054
0054
0055
40
.0046
0047
0048
0048
0049
0050
0051
0052
0053
0054
0054
32 0
.0045
0046
0047
0048
0048
0049
0050
0051
0052
0053
0054
20
X)044
00451 0046
0047
0048
0049
0049
0050
0051
0052
0053
40
0044
00451 0045
0046
0047
0048
0049
0049
0050
0051
0052
33 0
.0043
0044|0045
0045
0046
0047
0048
0049
0049
0050
0051
20
.0042
0043^0044
0045
0046
0046
0047
0048
0049
0050
0050
40
.0042
0043:0043
0044
0045
0046
0046
0047
0048
0049
0050
34 0
.0041
0042|0043
0043
0044
0045
0046
0046
0047
0048
0049
20
.0040
0041
0042
0043
0043
0044
0045
0046
0047
0047
0048
40
XKMO
0041
0041
0042
0043
0044
0044
0045
0046
0047
0047
35 0
.0039
0040
0041
0041
0042
0043
0044
0044
0045
0046
0047
20
.0039
0039
0040
0041
0042
0042
0043
0044
0044
0045
0046
40
.0038
0039
0039
0040
0041
0042
0042
0043
0044
0044
0045
36 0
.0037
0038
0039
0040
0040
0041
0042
0042
0043
0044
0044
20
.0037
0038
0038
0039
0040
0040
0041
0042
0042
0043
0044
40
.0036
0037
0038
0038
0039
0040
0040
0041
0042
0042
0043
37 0
.0036
0036
0037
0038
0038
0039
0040
0010
0041
0042
0042
20
.0035
0036
0037
0037
0038
0039
0039
0040
0040
0041
0042
40
.0035
0035
0036
0037
0037
0038
Oa39
0039
0040
0040
0041
38 0
.0034
0035
0035
0036
0037
0037
0038
0039
0089
0040
0040
20
.0034
0034
0035
0036
0036
0037
0037
0038
0039
0039
0040
40
.0033
0034
0034
0035
0036
0036
0037
0037
0038
0039
0039
39 0
0033
0034
0034
0035
0036
0036
0037
0037
0038
0039
20
0033
0033
0034
0035
0035
0036
0036
0037
0037
0038
40
0032
0033
0033
0034
0035
0035
0036
0036
0037
0037
40 0
0032
0032
0033
0033
0034
0035
0035
0036
0036
0037
20
0031
0032
0032
0033
0034
0034
0035
0035
0036
0036
40
0031
0031
0032
0032
0033
0034
0034
0035
0035
0036
41 0
0030
0031
0031
0032
0033
0033
0034
0034
0035
0035
20
0030
0030
0031
0031
0032
0033
0033
0034
0034
0035
40
0029
0030
0030
0031
0032
0032
0033
0033
0034
0034
42 0
0029
0029
0030
0031
0031
0032
0032
0033
0033
0034
20
0029
0029
0030
0030
0031
0031
0032
0032
0033
0033
40
0028
0029
0029
oa$o
0030
0031
0031
0032
0032
0033
43 0
0028
0028
0029
0029
0030
0030
0031
0031
0032
0032
20
0027
0028
0028
0029
0029
0030
0030
0031
0031
0032
40
0027
0027
0028
0028
0029
0029
0030
0030
0031
0031
44 0
0026
0027
0027
0028
0028
0029
0029
0030
0030
0031
20
0026
0026
0027
0027
0028
0028
0029
0029
0030
0030
40
0026
0026
0026
0027
0027
0028
0028
0029
0029
0030
45 0
0025
0026
0026
0027
0027
0027 0028
0028
0029 0029
:
65
37
TABLE V. LOG. A.
Logs. A, B, C, and D, hrhaaan.
of >.
REDUCED PARALLAX AND REFRACTION OF >.
51'
59'
0026
58'
0026
54'
0027
55'
0027
M'
5r
58'
58^
88'
450 0*
.0025
0027
0028
0028
0029
0029
30
.0025
0025
0025
0026
0026
0027
0027
0028
0028
0028
46 0
.0024
0024
0025
0025
0026
0026
0027
0027
0027
0028
30
.002.3
0024
0024
0025
0025
0026
0026
0026
0027
0027
47 0
X)023
0023
0024
0024
0025
0095
0025
0026
0026
0026
30
.0022
0023
0023
0024
0024
0094
0025
0025
0025
0096
48 0
.0022
0022
0023
0023
0023
0024
0024
0024
0025
0025
30
.0021
0022
0022
0022
0023
0023
0024
0024
0094
0025
49 0
.002!
0021
0022
0022
0022
0023
0023
0023
0024
0094
30
.0020
0021
0021
0021
0022
0022
0022
0023
0023
0093
50 0
.0020
0020
0020
0021
0021
0022
0022
0022
0023
0093
30
.0019
0020
0020
0020
0021
0021
0021
0022
0022
0022
51 0
.0019
0019
0020
0020
0020
0020
0021
0021
0021
0092
30
.0018
0019
0019
0019
0020
0020
0020
0021
0021
0021
53 0
X)018
0018
0019
0019
0019
0019
0020
0020
0020
0021
30
.0018
0018
0018
0018
0019
0019
0019
0020
0090
0090
53 0
.0017
0017
0018
0018
0018
0018
0019
0019
0019
0090
30
.0017
0017
0017
0017
0018
0018
0018
0019
0019
0019
54 0
.0016
0016
0017
0017
0017
0018
0018
0018
0018
0019
30
.0016
0016
0016
0017
0017
0017
0017
0018
0018
0018
55 0
.0015
0016
0016
0016
0016
0017
0017
0017
0017
0018
30
jOO\5
0015
0015
0016
0016
0016
0016
0017
0017
0017
56 0
J00l$
0015
0015
0015
0016
0016
0016
0016
0017
0017
30
.0014
0014
0015
0015
0015
0015
0016
0016
0016
0016
57 0
J00i4
0014
0014
0015
0015
0015
0015
0015
0016
0016
30
.0014
0014
0014
0014
0014
0015
0015
0015
0015
0015
58 0
.0013
0013
0014
0014
0014
0014
0014
0015
0015
0015
30
.0013
0013
0013
0013
0014
0014
0014
0014
0014
0015
59 0
.0012
0013
0013
0013
0013
0013
0014
0014
0014
0014
30
.0012
0012
0012
0013
0013
0013
0013
0013
0014
0014
60
m\2
0012
0012
0012
0013
0013
0013
0013
0013
0013
61
.0011
0011
0011
0012
0012
0012
0012
0012
0012
0013
62
JOOM
0011
0011
0011
0011
0011
0011
0012
0012
0012
63
.0010
0010
0010
0010
0011
0011
0011
0011
0011
0011
64
.0009
0010
0010
0010
0010
0010
0010
0010
0010
0011
65
.0009
0009
0009
0009
0009
0009
0010
0010
0010
0010
66
.0008
0008
0009
0009
0009
0009
0009
0009
0009
0009
67
jooas
0008
0008
0008
0008
0008
0008
0009
0009
0009
68
.0007
0007
0008
0008
0008
0008
0008
0008
0008
0008
69
.0007
0007
0007
0007
0007
0007
0007
0008
0008
0008
70
.0007
0007
0007
0007
0007
0007
0007
0007
0007
0007
71
.0006
0006
0006
0006
0006
0006
0007
0007
0007
0007
72
.0006
0006
0006
0006
0006
0006
0006
0006
0006
0006
73
.0005
0005
0006
0006
0006
0006
0006
0006
0006
0006
74
J0005
0005
0005
0005
0005
0005
0005
0005
0005
0006
75
.0005
0005
0005
0005
0005
0005
0005
0005
0005
0005
76
.0004
0005
0006
0005
0005
0005
0005
0005
0005
0005
77
X)004
0004
0004
0004
0004
0004
0004
0004
0004
0004
78
.0004
0004
0004
0004
0004
0004
0004
0004
0004
0004
79
JOWH
0004
0004
0004
0004
0004
0004
0004
0004
0004
80
JOWH
0004
0004
0004
0004
0004
0004
0004
0004
0004
1
81
X)003
0003
0003
0003
0003
0003
0003
0003
0008
0003
1
82
X)003
0003
0003
OOOS
0003
0003
0003
0003
0003
0003
83
.0003
0003
0003
0003
0003
0003
0003
0003
0003
0003
84
.0003
0003
0003
0003
0003
0003
0003
0003
0008
0003
85
JOOOS
0003
0003
0003
OOOS
OOOS
0003
0003
OOOS
0003
86
J0009
0003
0003
OOOS
0003
0008
0003
0003
0008
0003
87
JOOOS
0003
0003
0003
0003
OOOS
0003
0003
0003
0003
88
.0003
0003
0003
OOOS
0003
OOOS
0003
0003
OOOS
OOOS
89
X)003
0003
0003
0003
0003
0008
0003
0003
0003
0003
90
.0003
OOOS
0003
0003
0003
OOOS
0003
0003
0008
0003
88
TABLE V. LOG. B.
Logs. A, B, C, and D, for Lonari.
App. AlU
of
REDUCED BEFBACTION AND PARALLAX OF © OR -Jf. |
(KO"
VW
I'O"
I'SO"
ro"
rir
vr
«'»0"
4'0"
4' 10"
^'O"
5' JO"
6*» 0'
10
20
80
40
60
6 0
20
9.9970
40
9.9972
7 0
9.9976
9.9974
20
9.9977
9.9975
40
9.9981
9.9978
9.9976
8 0
9.9982
9.9979
9.9977
20
9.9982
9.9980
9.9978
40
9.9983
9.9981
9.9979
9 0
9.9986
9.9984
9.9982
9.9980
20
9.9986
9.9985
9.9983
9.9981
40
9.9987
9.9985
9.9983
9.9982
10 0
9.9989
9.9988
9.9986
9.9984
9.9982
11
9.9992
9.9991
9.9989
9.9987
9.9986
9.9984
12
9.9993
9.9992
9.9990
9.9989
9.9987
9.9986
13
9.9995
9.9994
9.9992
9.9991
9.9990
9.9989
9.9987
14
9.9995
9.9994
9.9993
9.9992
9.9991
9.9990
15
9.9997
9.9996
9.9995
99994
9.^993
9.9992
9.9991
16
9.9997
9.9996
9.9995
9.9994
9.9993
9.9993
18
9.9990
9.9998
9.9997
9.9996
9.9995
9.9995
20
0.0000
9.9999
9.9998
9.9998
9.9997
9.9996
9.9996
25
0.0000
0.0000 9.9999
9.9999
9.9998
9.9998
30
00001
0.0001
0.0000; 0.0000
0.0000
9.9999
50
0.0001
0.0001
0.0001
0.0001 0.0001
OJOOOl
90
0.0001 QJ0002
0.0002
0.0002 1
LOG- C-
App. All.
of
Oor-)(-.
REDUCED REFRACTION AND PARALLAX OF © OR -X-.
(KO"
VW'
I'O"
I'M"
2'0"
rtr
I'O"
no"
4'0"
4' 10"
I'O"
I'lO"
6» 0*
20
40
6 0
20
9.9969
40
9.9970
7 0
9.9974
9.9972
8
9.9980
9.9978
9.9975
9
9.9984
9.9982
9.9980
9.9978
10
9.9988
9.9986
9.9984
9.9982
9.9981
11
9.9990
9.9989 1 9.9987
9.9986
9.9984
9.9982
12
9.9991
9.9990,9.9988
9.9987
9.9985
9.9984
IS
9.9993
9.9992
9.9991; 9.9989
9.9988
9.9987
9.9985
14
9.9994
9.9993
9.9991 9.9990
9.9989
9.9988
15
9.9995
99994
9.9993
9.9992^9.9991
9.9990
9.9989
16
9 9996
9.9995
9.9994
9.9993 9.9992
9.9990
17
9.9996
9.9995
9.9994
9.9993 9.9992
9.9991
18
9.9997
9.9996
9.9995
9.9994
9.9994
9.9998
20
9.9998
9.9998
9.9997
9.9996
9.9995
9.9994
9.9993
25
9.9999
9.9998
9.9998
9.9997
9.9996
9.9996
80
0.0000
9.9999
9.9999
9.9998
9.9998
9.9997
40
0.0000
9.9999
9.9999 9 9999
9.9999
50
0.0000
0.0000 OXXXN)
9.9999,9.9999
•
190
0.0000
OXWOO 0.0000
0.0000!
-
39
TABLE v. LOG. B.
Lofs. A, B. C, and D, fer Larara.
App. Alu
of
Oor^.
REDUCED REFRACTION AND PARALLAX OF © OR ^. |
»r vw\Tr
nr
8'0"
8'ir
^r
9' 10"
wr WW
irr
U'JO' 1
6*» 0'
9.9951
9.9947
9.9944 '9.9940 '9.9937
9.9922 9.9919
10
9.9953
9.9949
9.9946,9.9942 9.9939
9.9935 9.9932 9.9928
9.9925 9.9921
20
9.9954
9.9951
9.9948 9.9944
9.9941
9.9937 9.9934 9.9931
9.992719.9924 I
30
9.9959
9.9956
9.9952
9.9949 9.9946
9.9943
9.9939 9.9936 9.9933
9.9929
40
9.9960
9.9957
9.9954 '9.9951
9.9948
9.9944
9.9941,9.9938 9.9935
9 9943 9.9940 9 9937
9.9932
60
9.9965 9.99639.9958
9.9955 9.9952
9.9949
9.9946
6 0
9.9966 9.9963 9.9960
9.9957 9.9954
9.9951
9.9948 9.99451 9.9942 1
9.9939
SO
9.9968 9.9965 1 9.9962
9.9959 9.9956
9.99.M
9.9951
9.9948 9.99451
40
9.9969 9.996719.9964
9.9961 9.9959
9.9956
9.9953
9.9951
9.9948
7 0
9.9971; 9.9968
9.9966
9.9963 9.9961
9.9958
9.9956
9.9953
SO
9.9972 9.9970
9.9968
9.9965 9.9963
9.9960
9.9958
40
9.9974 9.9971
9.9969
9.9967,9.9965
9.9962
t 0
9.9975 9.9973
9.9971
9.9968 9.9966
9.9964
SO
9.9976 9.9974
9.9972
9.9970
9.9968
40
9.9977 j 9.9975
9.9978
9.9971
9 0
9.9978 9.9976
9.9974
9.997S
SO
9.9979 9.9977
9.9975
40
9.9980 9.9978
9 9976
10
9.9981 9.9979
9.9977
11
9.9983 9.9981
IS
13
14
15
9.9985
16
18
SO
S5
30
50
90
LOG. C.
App. All.
of
Oor-X-.
REDUCED REFRACTION AND PARALLAX OF © OR ^. |
S'O"
6'I0"
vr
TW
8'0"
8'W
vr
rjo"
Wr
WW ll'O"
11' JO"'
5* 0/
99949
9.9946
9.9942
9.9938
9.9935
9.9931
9.9927
9.9924 9.9920 9.9916 |
80
9.9956
9.9953
9.9949
9.9946
9.9942
9.9939
9.9936:9.9932
9.9989 9.9925
9J9Sa
40
9.9962
9.9959
9.9955
9.9952
9.9949
9.9946
9.9943
9.9939 9.9936
9.9933 9.9930
6 0
9.9964 '9.9961
9.9958
9.9955
9.9952
9.9949
9.9946
9.9943 19.9940
9.9937
SO
9.9966
9.9963
9.9960
9.9957
99955
9.9952
9.9949
9.9946
9.9943
40
9.9968
9.9965
9.9962
9.9960
9.9957
9.9954
9.9951
9.9949
9.9946
7
9.9969
9.9967
9.9964
9.9962
9.9959
9.9956
9.9954
9.9951
8
9.9973
9.9971
9.9969
9.9966
9.9964
9.9962
9.9960
9
9.9976
9.9974
9.9972
9.9970
9.9968
10
9.9979
9.9977
9.9975
11
9.9981
9.9979
IS
9.9983
IS
14
15
16
17
18
SO
S5
30
40
50
90
ll
40
TABLE V. LOG. D.
Log«. A, B, C, and D, for Lunara.
of >.
REDUCED PARALLAX AND REFRACTION OF 3>. f
41'
49'
48'
44'
4ft'
46'
47'
48'
49'
ftO'
51'
0356
58'
54'
55'
5°0'
X)283
0290
0296
0303
0310
0316
0323
0329
0336
0343
0349
0362
0369
S
.0280
0287
0293
0300
0307
0313
0320
0326
0333
0339
0346
0352
0369
0365
6
.0277
0284
0291
0297
0304
0310
0317
0323
0330
0336
0342
0349
0355
0362
9
.0275
0281
0288
0294
0301
0307
0313
0320
0326
0333
0339
0345
0352
0358
12
.0272
0279
0285
0291
0298
0304
0310
0317
0323
0330
0336
0342
0349
0355
5 15
.0270
0276
0282
0289
0295
0301
0308
0314
0320
0326
0333
0339
0345
0351
18
msi
0273
0280
0286
0292
0298
0305
0311
0317
0323
0330
0336
0342
0348
21
.0264
0271
0277
0283
0289
0296
0302
0308
0314
0320
0327
0333
0339
0345
24
.0262
0268
0274
0281
0287
0293
0299
0305
0311
0317
0324
0330
0336
0342
27
0260
0266
0272
0278
0284
0290
0296
0302
0308
0314
0321
0327
0333
0339
5 30
.0257
0263
0269
0275
0282
0288
0294
0300
0306
0312
0318
0324
0330
0336
33
.0255
0261
0267
0273
0279
0285
0291
0297
0303
0309
0315
0321
0327
0333
36
.0253
0259
0265
0271
0276
0282
0288
0294
0300
0306
0312
0318
0324
0330
39
0256
0262
0268
0274
0280
0286
0292
0298
0303
0309
0315
0321
0327
42
0254
0260
0266
0272
0277
0283
0289
0295
0301
0306
0312
0318
0324
5 45
0252
0258
0263
0269
0275
0281
0287
0292
0298
0304
0310
0307
0315
0321
48
0250
0255
0261
0267
0273
0278
0284
0290
0295
0301
0313
0318
51
0247
0253
0259
0265
0270
0276
0282
0287
0293
0299
0304
0310
0316
54
0245
0251
0257
0262
0268
0274
0279
0285
0290
0296
0302
0307
0313
57
0243
0249
0254
0260
0266
0271
0277
0282
0288
0294
0299
0305
0310
6 0
0241
0247
0252
0258
0263
0269
0275
0280
0286
0291
0297
0302
0308
3
0239
0245
0250
0256
0261
0267
0272
0278
0283
0289
0294
0300
0305
6
0237
0243
0248
0254
0259
0265
0270
0275
02Q1
0286
0292
0297
0302
9
0235
0241
0246
0252
0257
0262
0268
0273
0279
0284
0289
0295
0300
12
0233
0239
0244
0249
0255
0260
0266
0271
0276
0282
0287
0292
0298
6 15
0231
0237
0242
0247
0253
0258
0263
0269
0274
0279
0285
0290
0295
18
0230 ; 0235
0240
0245
0251
0256
0261
0267
0272
0277
0282
0288
0293
21
0228
0233
0238
0243
0249
0254
0259
0264
0270
0275
0280
0285
0290
24
0226
0231
0236
0242
0247
0252
0257
0262
0267
0273
0278
0283
0288
27
0229
0234
0240
0245
0250
0255
0260
0265
0271
0276
0281
0286
0291
630
0227
0233
0238
0243
0248
0253
0258
0263
0268
0274
0279
0284
0289
33
0226
0231
0236
0241
0246
0251
0256
0261
0266
0271
0276
0281
0287
36
0224
0229
0234
0239
0244
0249
0254
0259
0264
0269
0274
0279
0284
39
0222
0227
0232
0237
0242
0247
0252
0257
0262
0267
0272
0277
0282
42
0220
0225
0230
0235
0240
0245
0250
0255
0260
0265
0270
0275
0280
6 45
0219
0224
02^
0234
0239
0244
0248
0253
0258
0263
0268
0273
0278
48
0217
0222
0227
0232
0237
0242
0247
0251
0256
0261
0266
0271
0276
51
0216
0220
0225
0230
0235
0240
0245
0250
0254
0259
0264
0269
0274
54
0214
0219
0224
0228
0233
0238
0243
0248
0253
0257
0262
0267
1272
57
0212
0217
0222
0227
0232
0236
0241
0246
0251
0255
0260
0265
0270
7 0
0211
0216
0220
0225
0230
0235
0239
0244
0249
0254
0258
0263
0268
3
0209
0214
0219
0223
0228
0233
0238
0242
024710252
0256
0261
0266
6
0208
0212
0217
0222
0227
0231
0236
0241
0245, 0250
0255
0259
0264
9
0211
0216
0220
0225
0230
0234
0239
0243' 0248
0253
0257
0262
12
0209
0214
0219
0223
0228
0232
0237
0242. 0246
0251
0255
0260
7 15
0208
0212
0217
0222
0226
0231
0235
02401 0245
0249
0254
0258
18
0206
0211
0216
0220
0225
0229
0234
0238i 0243
0247
0252
0256
21
0205
0209
0214
0219
0223
0228
0232
0237
0241
0246
0250
0255
24
0204
0208
0213
0217
0222
0226
0230
0235
0239
0244
0248
0253
27
0202
0207
0211
0216
0220
0224
0229 0233 1 0238
0242
0247
0251
730
0201
0205
0210
0214
0218
0223
0227' O232I 0236
0241
0245
0249
33
0199
0204
0208
0213
0217
0221
0226
02301 0234
0239
0243
0248
36
0198
0202
0207
0211
mib
0220
0224
0229; 0233
0237
0242
0246
39
0197
0201
0205
0210
0214
0218
0223
02271 0231
0236
0240
0244
42
0195
0200
0204
0208
0213
0217
0221
0225' 0230
0234
0238
0243
7 45
0194
0198
0203
0207
0211
0215
0220
0224; 0228
0232
0237
0241
48
0193
0197
0201
0205
0210
0214
0218
0222, 0227
0231
0235
0239
51
0191
0196
0200
0204
0208
0213
0217
0221
0225
0229
0234
0238
54
0190
0194
0198
0203
0207
0211
0215
0219
0224
0228
0232
0236
57
0189
0193
0197
0201
0206
0210
0214
0218
0222
0226
0230
0235
8 0
0188
0192
0196
0200
0204
0208 0212
0217
0221
0225
0229
0233
41
TABLE V. LOG. D.
Loff. A, B, C, and D, fcr Lunan.
isr
of >.
REDUCED PARALLAX AND REFRACTION OF >. ||
45'
46'
4r
4§'
411'
SO'
51'
59'
5nf
54'
55'
56'
5T'
58'
8^0'
^192
0196
0200
0204
0208
0212
0217
0221
0225
0229
0233
0237
5
X)190
0194
0198
0202
0206
0210
0214
0218
0222
0227
0231
0235
10
.0188
0192
0196
0200
0204
0208
0212
0216
0220
0224
0228
0232
15
^186
0190
0194
0198
0202
0206
0210
0214
0218
0222
0226
0230
SO
^184
0188
0192
0196
0200
0204
0207
0211
0215
0219
0223
0227
35
X)182
0186
0190
0194
0197
0201
0205
0209
0213
0217
0221
0225
830
^180
0184
0188
0192
0195
0199
0203
0207
0211
0215
0219
0223
35
J017S
0182
0186
0190
0193
0197
0201
0205
0209
0213
0216
0220
40
^176
0180
0184
0188
0191
0195
0199
0203
0207
0210
0214
0218
45
.0174
0178
0182
0186
0189
0193
0197
0201
0205
0208
0212
0216
50
J0\73
0176
0180
0184
0188
0191
0195
0199
0202
0206
0210
0214
55
J0\7l
0175
0178
0182
0186
0189
0193
0197
0200
0204
0208
0212
9 0
.0169
0173
0177
0180
0184
0188
0191
0195
0198
0202
0206
0209
5
.0167
0171
0175
0178
0182
0186
0189
0193
0197
0200
0204
0207
10
.0166
0169
0173
0177
0180
0184
0187
0191
0195
0198
0202
0205
15
.0164
0168
0171
0175
0179
0182
0186
0189
0193
0196
0200
0203
1 20
.0163
0166
0170
0173
0177
0180
0184
0187
0191
0194
0198
0201
' 25
X)161
0165
0168
0172
0175
0179
0182
0186
0189
0193
0196
0199
930
0163
0166
0170
0173
0177
0180
0184
0187
0191
0194
0198
35
0161
0165
0168
0172
0175
0179
0182
0185
0189
0192
0196
40
0160
0163
0167
0170
0174
0177
0180
0184
0187
0191
0194
45
015810162
0165
0169
0172
0175
0179
0182
0185
0189
0192
0195
50
0157 0160
0164
0167
0170
0174
0177
0180
0184
0187
0190
0194
55
0156 0159
0162
0165
0169
0172
0175
0179
0182
0185
0189
0192
10 0
015410157
0161
0164
016?
0171
0174
0177
0180
0184
0187
0190
5
0153 0156
0159
0162
0166
0169
0172
0175
0179
0182
0185
0188
10
0151
0155
0158
0161
0164
0167
0171
0174
0177
0180
0183
0187
15
0150
0153
0156
0160
0163
0166
0169
0172
0175
0179
0182
0185
90
0149
0152
0155
0158
0161
0164
0168
0171
0174
0177
0180
0183
25
0147
0150
0154
0157
0160
0163
0166
0169
0172
0175
0179
0182
10 30
0146
0149
0152
0155
0158
0162
0165
0168
0171
0174
0177
0180
35
0145 0148
0151
0154
0157
0160
0163 0166 1
0169
0172
0175
0179
40
0143
0147
0150
0153
0156
0159
0162
0165
0168 0171
0174
0177
45
0142
0145
0148
0151
0154
0157
0160
0163
0166 0169 0172
0175
50
0141
0144
0147
0150
0153
0156
0159
0162
0165 0168 0171
0174
55
0140
0143
0146
0149
0152
0155
0158
0161
0164' 0167 0170
0172
11 0
0139
0142
0145
0147
0150
0153
0156
0159
0162 0165 0168
0171
5
0137
0140
0143
0146
0149
0152
0155
0158
0161 0164 0167
0170
10
0139
0142
0145
0148
0151
0154
0157
0159 0162 0165
0168
15
0138
0141
0144
0147
0150
0152
0155
0158 0161 0164
0167
20
0137
0140
0143
0145
0148
0151
0154
0157 0160 0163
0165
25
0136
0139
0141 0144
0147
0150
0153
0156 0158 0161
0164
11 30
0135
0137
0140; 0143
0146
0149
0151
0154 0157.0160
0163
35
01 ai
0136
0139 0142
0145
0147
0150
0153 0156 0159
0161
40
0132
0135
0138 0141
0143
0146
0149
0152 0154 0157
0160
45
0131
0134
0137 1 0140
0142
0145
0148
015o! 0153 0156
0159
50
0130
0133 0136 0138
0141
0144
0147
0149 0152 0155
0157
55
0129
0132 0135 0137
0140
0143
0145
0148 0151,0153
0156
12 0
0128
0131
0134,0136
0139
0142
0144
0147 0150 0152
0155
5
0127
0130
0132 0135
0138
0140
0143
0146 0148 0151
0154
10
0126
0129
0131 ' 0134
0137
0139
0142
0145 0147
0150
0152
15
0125
0128
0130' 0133
0136
0138
0141
0143 0146
0149
0151
20
0124
0127
0129' 0132
0135
0137
0140
0142
0145
0147
0150
25
0123
0126 0128| 0131
0133
0136
0139
0141
0144
0146
0149
12 30
0122
0125 0127
0130
0132
0135
0138
0140
0143
0145
0148
35
0121
0124 0126
0129
0131
0134
0136
0139
0141
0144
0147
40
0120
0123
0125
0128
0130
0133
0135
0138; 0140
0143
0145
45
0119
0122
0124
0127
0129
0132
0134
0137 0139
0142
0144
0147
50
0118
0121
0123' 0126
0128
0131
0133
0136
0138
0141
0143
0146
55
0118
0120
0123
0125
0127
0130
0132
0135
0137
0140
0142
0145
13 0
0117
0119
0122
0124
0126
0129
0131
0134
0136
0139
0141
0143
42
TABLE V. LOG. D.
LofiL A, B, C, and D, for Lunan.
of >.
REDUCED PARALLAX AND REFRACTION OF >. - |
4r
4r
49'
M'
Al'
59'
58'
54'
55'
56'
5r
58'
58'
13^ 0'
join
0119
0122
0124
0126
0129
0131
0134
0136
0139
0141
0143
10
m\5
0117
0120
0122
0125
0127
0129
0132
0134
0137
0139
0141
20
JOllS
0116
0118
0120
0123
0125
0127
0130
0132
0134
0137
0139
30
.0112
0114
0116
0119
0121
0123
0125
0128
0130
0132
0135
0137
40
0112
0114
0117
0119
0121
0124
0126
0128
0131
0133
0135
50
0111
0113
0115
0117
0120
0122
0124
0126
0129
0131
0133
14 0
0109
OIU
0113
0116
0118
0120
0122
0125
0127
0129
0131
10
0107
0110
0112
0114
0116
0118
0121
0123
0125
0127
0129
20
0106
0108
OHO
0112
0114
0117
0119
0121
0123
0125
0127
30
0104
0106
0109
0111
0113
0115
0117
0119
0121
0123
0126
40
0103
0105
0107
0109
0111
0113
0115
0118
0120
0122
0124
50
0101
0103
0106
0108
OHO
0112
0114
0116
0118
0120
0122
15 0
0100
0102
0104
0106
0108
0110
0112
0114
0116
0118
0120
10
0099
0101
0103
0105
0107
0109
0111
0113
0115
0117
0119
20
0097
0099
0101
0103
0105
0107
0109
0111
0113
0115
0117
30
0096
0098
0100
0102
0104
0106
0108
OHO
0112
0113
0115
40
0094
0096
0098
0100
0102
0104
0106
0108
0110
0112
0114
50
0093
0095
0097
0099
0101
0103
0105
0107
0108
OHO
0112
16 0
0092
0094
0096
0098
0099
0101
0103
0105
0107
0109
0111
10
iD091
0093
0094
0096
0098
0100
0102
0104
0106
0107
0109
20
0089
0091
0093
0095
0097
0099
0100
0102
0104
0106
0108
30
0088
0090
0092
0094
0096
0097
0099
0101
0103
0105
0106
40
0087
0089
0091
0092
0094
0096
0098
0100
0101
0103
0105
50
0086
0088
0089
0091
0093
0095
0096
0098
0100
0102
0104
17 0
0085
0087
0088
0090
0092
0093
0095
0097
0099
0100
0102
10
0084
0085
0087
0089
0091
0092
0094
0096
0097
0099
0101
20
0083
0084
0086
0088
0089
0091
0093
0094
0096
0098
0099
30
0083
0085
0086
0088
0090
0091
0093
0095
0096
0098
40
0082
0084
0085
0087
0089
0090
0092
0094
0095
0097
50
0081
0083
0084
0086
0087
0089
0091
0092
0094
0096
18 0
0080
0082
0083
0085
0086
0088
0090
0091
0093
0094
20
0078
0079
0081
0083
0084
0086
0087
0089
0090
0092
0093
40
0076
0077
0079
0080
0082
0083
0085
0087
0088
0090
0091
19 0
0074
0075
0077
0078
0080
0081
0083
0084
0086
0087
0089
20
0072
0073
0075
0076
0078
0079
0081
0082
0084
0085
0086
40
0070
0072
0073
0074
0076
0077
0079
0080
0081
0083
0084
20 0
0068
0070
0071
0073
0074
0075
0077
0078
0079
0081
0082
20
0067
0068
0069
0071
0072
0073
0075
0076
0077
0079
0080
40
0065
0066
0068
0069
0070
0072
0073
0074
0075
0077
0078
21 0
0063
0065
0066
0067
0068
0070
0071
0072
0074
0075
0076
20
0062
0063
0064
0065
0067
0068
0069
0070
0072
0073
0074
40
0060
0061
0063
0064
0065
0066
0067
0069
0070
0071
0072
22 0
0059
0060
0061
0062
0063
0065
0066
0067
0068
0069
0070
20
0057
0058
0059
0061
0062
0063
0064
0065
0066
0068
0069
40
0056
0057
0058
0059
0060
0061
0062
0064
0065
0066
0067
23 0
0054
0055
0057
0058
0059
0060
0061
0062
0063
0064
0065
20
0053
0054
0055
0056
0057
0058
0059
0060
0061
0063
0064
40
0052
0053
0054
0055
0056
0057
0058
0059
0060
0061
0062
24 0
0050
0051
0052
0053
0054
0055
0056
0057
0058
0059
0060
20
0050
0051
0052
0053
0054
0055
0056
0057
0058
0059
40
0049
0050
0051
0052
0053
0053
0054
0055
0056
0057
25 0
0047
0048
0049
0050
0051
0052
0053
0054
0055
0056
20
0046
0047
0048
0049
0050
0051
0052
0053
0053
0054
40
0045
0046
0047
0048
0049
0049
0050
0051
0052
0053
26 0
0044
0045
0046
0046
0047
0048
0049
0050
0051
0052
20
0043
0043
0044
0(VI5
0046
0047
0048
0048
0049
0050
40
0041
0042
0043
0044
0045
0046
0046
0047
0048
0049
27 0
0040
0041
0042
0043
0044
0044
0045
0046
0047
0047
20
0039
0040
0041
0042
0042
0043
0044
0045
0045
0046
40
0038
0039
0040
0040
0041
0042
0043
0043
0044
0045
28 0
0037
0038
0039
0039
0040
0041
0042
0042
0043
0044
!
43
TABLE V. LOG. D.
Log*. A, B, C, md D, for Lnn«».
of >.
REDUCED PARALLAX AND REFRACTION OP >. \\
SOf
51'
59'
5S'
54^
55'
56^
5T'
59^
59*
•#'
28« C
0.0037
0.0038
0.0039
0.0039
0.0040
0.0041
0.0042
0.0042
0.0043
OXKHA
30
0.0036
0003610.0037
0.0038
0.0038
0.0039
0.0040
0.0040
0.0041
0.0042
29 0
0.0034
0.0035 Oi)035
0.0036
0.0037
0.0037
0.0038
0.0039 0.0039
0.0040
30
0.0033
0.0033 0.0a34
0.0035
0.0035
Oi)036
0.0036
0.0037! 0.0038
0.0038
i 30 0
0.0031
0.0032 0.0032
0.0033
0.0034
0.0034
0.0035
0.0035 0.0036
OX)037
' 30
0.0030
0.0030 0 0031
0.0031
0.0032
0.0033
0.0033
0.0034
0.0034
0.0035
31 0
0.0028
0.0029 0.0029
00030
OJOQSi
0.0031
0.0032
0J0032
0.0033
0.0033
30
0.0027
0.0028 0.0028
0.0029
0.0029
0.0030
0.0030
0.0031
oxmi
0J0O32
OJ0092
32 0
0.0026
0.0026 0.0027
00027
0.0028
0X)028
0.0029
0.0029
0.0030
OJOOSO
0J009\
30
00024
0.0025 0.0025
0.0026
0X)026
00027
0.0027
0.0028
0.0028
0X)029
0X)029
33 0
0.0023
0.0024 0.0024
0.0025
0.0025
0X)025
0.0026
0X)026
0.0027
0.0027
0JOO2B
30
0X)022
0.0022 0.0023
0.0023
0.0024
0.0024
0.0025
0.0025
00025
0X)026
0X)026
34 0
0.0021
0.0021 0.0022
0.0022
0.0022
0X)023
0.0023
0.0024
0.0024
0.0024
0.0025
30
0.0020
0.0020 0.0020
0.0021
0.0021
0.0022
0.0022
0.0022
0.0023
0.0023
ojooas
35 0
0.0018
0 0019 0.0019
0.0020
0.0020
0.0020
0.0021
oxmi
0.0021
0XK>22
a0022
30
0.0017
0.0018 0.0018
0.0018
0.0019
0.0019
0.0019
0.0020
0.0020
0.0020
0.0021
36 0
0.0016 00017 0.0017
0.0017
0.0018
OX)018
0.0018
0X)019
0.0019
0X)019
0J0O\9
30
0.0015 0.0016 0.0016
0.0016
0.0016
0.0017
0.0017
0X)017
00018
0.0018
00018
37 0
0.00U'0.00U 0.0015
0.0015
0.0015
0.0016
0.0016
0.0016
0.0016
0.0017
0.0017
30
0.0013 0.0013 0.0014
0.0014
0.0014
0X)014
OJOOlb
00015
0X)015
OJOOlb
0.0016
38 0
0.0012 0.0012 0.0013
0.0013
0.0013
0.0013
OJOOU
0.0014
0.0014
0/)014
0.0014
SO
0 00ll|0.0011 0.0012
0.0012
0.0012
0.0012
0.0012
0.0013
0X)013
0.0013
0.0013
39 0
0.0010 0.0010 0.0011
0.0011
0.0011
0.0011
00011
0.0012
0.0012
0.0012
OJOOli
30
0.0009 0.0010
0.0010
0.0010
0.0010
oxmio
0.0010
0.0011
0.0011
OjOOU
40
0.0008 00009
0.0009
0.0009
0.0009
00009
0.0009
0.0010
0X)010
0.0010
41
0.0007 0.0007
00007
0.0007
0.0007
00007
0.0007
0.0007
OJOWS
OJOOOB
42
0.0005 0.0005
OOOO.'i
0.0005
0.0005
0.0005
0.0005
0J0O05
0.0005
00006
43
0 0003 0.0003
0.0003
0.0003
0.0003
0.0003
0.0003
0.0003
0X)003
OXNXM
44
0.0001 0.0001
0.0001
0.0001
0.0001
0.0001
0.0002
0.0002
0JO0Q2
0.0002
45
0 0000 0.0000
00000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
46
9.9998 9.9998
9.9998
9.9998
9.9998
9.9998
9.9998
9.9998
9.9998
9.9998
47
9.9997 9.9997
9.9997
9.9997
9.9996
9.9996
9.9996
9.9996
9.9996
9.9996
48
9.9995 9.9995
9.9995
9.9995
9.9995
9.9995
9.9995
9.9995
9.9994
9.9994
49
9.9994 9.9994
9.9994
9.9993
9.9993
9.9993
9 9993
9.9993
9.9993
9.9993
50
9.9992 9.9992
9.9992
9.9992
9.9992
9.9992
9.9992
9.9991
9.9991
9.9991
51
9.9991 9.9991
9.9991
9.9991
9.9990
9.9990
9.9990
9 9990
9.9990
9.9990
52
9.9990 9.9990
9.9990
9.9989
9.9989
9.9989
9.9989
9.9989
9.9988
9.9988
53
9.9989 9.9988
9.9988
9.9988
9.9988
9.9988
9.9987
9.9987
9.9987
9.9987
54
9.9988 9.9987
9.9987 9.9987
9.9987
9.9986
9.9986
9.9986
9.9986
9.9985
55
9.9986 9.9986
9.9986 9.9986
9.9985
9.9985
9.9985
9.9984
9.9984
9.9984
56
9.9985 9.9985
9.9985 9.9984
9.9984
9.9984
9.9984
9.9983
9.9983
9.9983
57
9.9984 9.9984
9.9984 1 9.9983
9.9983
9.9983
9.9982
9.9082
9.9982
9.9981
58
9.9983 9.9983
9.9983 '9.9982
9.9982
9.9982
9.9981
9.9981
9.9981
9.9980
59
9.9982 9.9982
9.9981 9.9981
9.9981
9.9980
9.9980
9.9980
9.9979
9.9979
60
9.9981
9.9981
9.9980
9.9980
9.9980
9.9979
9.9979
9.9979
9.9978
9.9978
61
9.9980
9.9980
9.9980
9.9979
9.9979
9.9978
9.9978
9.9978
9.9977
9.9977
62
9.9979
9.9979
9.9979 9.9978
9.9978
9.9977
9 9977
9.9977
9.9976
9.9976
63
99979
9.9978
9.9978 9 9977,9.9977
9.9976
9.9976
9.9976
9.9975
9.9975
64
9 9978
9.9977
9.9977 9.997619.9976
9.9976
9.9975
9.9975
9.9974
9.9974
65
9.9977
9.9977
9.9976 9.9976 19.9975
9.9975
9.9974
9.9974
9.9973
9.9972
66
0.9976
9.9976
9.9975 '9.9975 9.9974
9.9974
9.9973
9.9973
9.9973
9.9972
1
67
9.9976
9.9975
9.9975 9.9974 9.9974
9.9973
9.9973
9.9972
9.9972
9.9971
68
9.9975
9.9974
9.9974-9.9973,9.9973
9.9972
9.9972
9.9971
9.9971
9.9970
69
9.9974
9.9974
9.9973 1 9.9973 i 9.9972
9.9972
9.9971 9.9971 1
9 9970 9.9970
70
9.9974
9.9973
9.9973 9.9972 9.9972
9.9971
9.9970
9.9970
9.9969.9.9969
72
9.9972
9.9972
9.9971 9.9971
9.9970
9.9970
9.9969
9.9969
9.996819.9968
74
9.9971
9.9971
9.9970,9.9970
9.9969
9.9969
9.9968
9.9968
9.9967 9.9966
76
9.9971
9.9970
9.9969 9.9969
9.9968
9.9968
9.9967
9.9966
9.9966 9.9965
78
9.9970
9.9969
9.9969,9.9968
9.9967
9.9967
9.9966
9.9966
9.9965 9.9964
80
9 9969
9.9969
9.9968 9.9967
9.9967
9.9966
9.9965
9.9965
9 9964 9.9964
.'»
9.9968 9.9967
9.9966 9.9966
9.9965^9.9964
9.9964
9.9963
9.9963 9.9962
44
TABLE VI.
Second Corrtction of thblatmx Dtaunot.
Appar.
ent
Di«.
tance.
FIRST CORRECTION OF DISTANCE.
Appar-
ent
Unce.
i
7
id'ii'
if
11
8
1^
II
11
id
21
22
16
li
u
17
II
19
li
II
20
2(1
17' 28'
29M'
11
If
33
li
tl
li li
li
|s.ibir
0
II
2
l|s
II
6
u
13
I'i
II
22
II II
24 26
27 29
II
83
II
35
II
38
II
40
II
42
Add.
1 30
0\ 2
3! 5
6
8
10
13
14;i5 17
18
20,21
23 25
26 28|32
32
34
36; 39
41
16 0
0: 1
3
4
6
8
10
12
13 15 16J18
19
21
22 24
26 27131
31
33
35
37
39
30
0: 1
3
4
6
8
10
12
13,14
16
17
18
20
21 23
25 27
30
30
32
34
36
38
17 0
0 1
3
4
6
7
9
11
13!l4
15
16
18
19
21,22
24 26
29
29
31
33
85
37
30
0
3
4
7
9
U
12 13
15
16
17
19
20 22
23 25
28
28
30
32
84
36
18 0
0
3
4
7
9
U
12!l3
14
15
17
18
20 21
23 24
28
28
29
31
33
35
1 30
0
3
4
7
8
10
12
13
14
15
16
18
19 20
22 23
27
27
28
30
82
34
19 0
0
3
4
K
6
8
10
U
12
IS
15
16
17
18{20
21I23
26
26
28
29
31
S3
SO
0
2
4
6
8
10
11
12
13
14
15
17
18 19
2r22
25
25
27
28
30
32
20 0
0
1
2
3
6
8
10
11
12
13
14
16
16
17 19
2o'22
25
25
26
28
29
31
21
0; 1
2
3
6
7
9
lOJl
12
13
14
15
njis
19 20
23
23
25
26
28
29
l22
0, 1
2
3
*
6
7
9
10
10
11
12
14
15
16,17
18 19
22
22
24
25
26
28
23
0 1
2
3
5
7
8
9
10
11
12
13
14
15 16
17,19
21
21
22
24
25
27
24
0
1
2
3
5
6
8
9
9
10
U
12
13
14 15
16118
20
20
21
23
24
25
25
0
2
3
6
7
8
9
10
U
12
13
14'l5
16
17
19
19
20
22
23
24
|26
0
2
3
6
7
8
9
9
10
11
12
13 14
15
16
18
18
19
21
22
23
27
0
2
2
3
6
7
8
8
9
10
n
12
12 13
14
15 18
18
19
20 21
22
:28
0
2
2
3
5
7
7
8
9
9
10
11
12 13
14
15 17
17
18
19, 20
21
29
0
2
2
3
5
6
7
8
8
9
10
11
11:12
13
14
16
16
17
18 19
20
30
0
2
2
3
5
6
7
7
8
9
9
10
1112
13
14
15
15
16
17
19
20
31
0
2
3
5
6
6
7
8
8
9
10
11
11
12
13
15
15
16
17
18
19
32
0
2
3
5
6
6
7
7
8
9
9
10
11
12
13
14
14
15
16
17
18
33
0
2
3
3
4
5
6
7
7
8
8
9
10
11
11
12
14
14
15
16
16
17
1^^
0
2
3
3
4
5
6
6
7
7
8
9
9
10
11
12
13
13
14
15
16
17
'35
0
2
2
3
4
5
5
6
7
7
8
8
9
10
10
11
13
13
14
14
15
16
'36
0
2
2
3
4
5
5
6
6
7
8
8
9
9
10
11
12
12
13
14
15
16
|37
0
2
2
3
4
5
5
6
6
7
7
8
8
9
10
10
12
12
13
13
14
15
38
0
2
2
3
4
4
5
5
6
6
7
8
8
9
9
10
11
11
12
13
14
14
39
0
2
2
3
3
4
5
5
6
6
7
7
8
8
9
10
11
11
12
12
13
14
40
0
1
2
2
3
3
4
5
5
6
6
7
7
8
8
9
9
11
11
11
12
13
13
\4(P
42
0
0
2
2
3
4
4
5
5
6
6
7
7
8
8
9
10
10
11
11
12
13
138
44
0
0
2
3
4
4
4
5
5
6
6
7
7
8
8
9
9
10
10
11
12
136
46
0
0
2
3
3
4
4
4
5
5
6
6
7
7
8
9
9
9
10
10
11
134
48
0
0
2
3
3
3
4
4
5
5
5
6
6
7
7
8
8
9
9
10
10
132
50
0
0
2
2
3
3
4
4
4
5
5
5 6
6
7
8
8
8
8
9
9
130
52
0
0
2
2
3
3
3
4
4
4
5
5 5
6
6
7
7
7
8
8
9
128
54
0
0
2
2
3
3
3
3
4
4
4
5| 5
5
6
6
6
7
7
8
8
126
56
0
0
2
2
2
3
3
3
3
4
4
* ^
5
5
6
6
6
7
8
124
58
0
0
1
2
2
2
3
3
3
3
4
' '
5
5
6
6
6
6
7
122
60
0
0
0
1
2
2
2
2
3
3
3
3
44
4
5
5
5
5
6
7
120
62
0
0
0
1
2
2
2
2
2
3
3
3
3 4
4
4
5
5
5
5
6
118
64
0
0
0
1
1
2
2
2
2
2
S
3
3, 3
4
4
4
4
5
5
6
116
66
0
0
0
1
1
2
2
2
2
2
2
3
3' 3
3
4
4
4
4
4
5
114
68
0
0
0
I
1
1
2
2
2
2
2
2
3 3
3
3
4
4
4
4
5
112
70
0
0
0
0
I
1
1
1
2
2
2
2
2
2
2
3
3
3
3
3
4
4
110
74
0
0
0
0
0
1
1
1
I
1
1
1
2
2
2
2
2
2
3
3
3
3
3
106 j
78
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
102
82
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
98
86
0
0
0
0
0
0
0
0
0. 0|
0
0
0
0
0 0
1
1
1
1
1
1
1
94
90^
0
0
i
0
id
0
11
0
0
16
0
18
0
0
0
ii
0
0
_o
0
2d
0 0
27 28
0
29
0
Id
0
0
0
0
0
90»
Appa^
em
Dl.
Unce.
1
^
21
7i
li
2i
si' 12
li
1^
li
li
Appu^
ent
Die-
tance.
FIRST CORRECTION OF DISTAl
JTCE.
66
45
TABLE VI.
SeeoTtd Correction of the Lunar Dtetanca.
Apptr.
ent
Dis-
tance.
F1B8T COBBECTION OF DISTANCE.
Appar-
ent
Dia-
tance.
si
S^
1
19
40
ii
42
41
4^
A
4^46
1 f
«'
4^
4<i
ill
ii
d
jj
ii
6i
u
U
$7
ii
ii
60'
Subir
n
M
H
M
a
a
M
II
A
II
w
a
a
u
II
M
II
M
II
tl
Add.
15-»0'
45
47
50
52
55 57
60
63
66 6972
75
78
81
85
88
91
95
99
102
106
110
113
117
30
43
45
48
50
53 56
58
61
64 67 70
72
76
79
82
85
88
92
95
99
102
106
110
113
16 0
42
44
46
49
51|54
56
59
62 64 67
70
73
76
79
82
85
89
92
95
99
102
106
110
30
4Q
43
45
47
50'52
54
57
60 62
65
68
71
74
77
80
83
86
89
92
96
99
103
106
17 0
39
41
43
46
48|50
53
55
58
60
63
66
69
71
74
77
80
83
86
90
93
96
99
103
30
38
40
42
44
47 49
51
54
56
59
61
64
66
69
72
75
78
81
84
87
90
93
96
100
18 0
37
39
41
43
45 47 50
52
54
57
59
62
64
67
70
73
75
78
81
84
87
90
94
97
30
36
38
40
42
44 46 48
50
53
55
58
60
63
65
68
71
73
76
79
82
85
88
91
94
19 0
35
37
39
41
43 45
47
49
51
54
56
58
61
63
66
69
71
74
77
79
82
85
88
91
30
34
36
37
39
41
43
46
48
50
52
54
57
59
62
64
67
69
72
75
77
80
83
86
89
20
33
35
36
38
40
42
44
46
49
51
53
55
58
60
62
65
67
70
73
75
78
81
83
86
21
31
33
35
36
38
40
42
44
46
48
50
52
55
57
59
61
64
66
69
71
74
76
79
82
22
30
31
33
35
36
38
40
42
44
46
48
50
52
54
56
58
61
63
65
68
70
73
75
78
23
28 30
31
33
35
36 38
40
42
44
45
47
49
51
53
56
58160
62
64
67
69
72
74
24
27
28
30
31
33
35 36
38
40
41
43
45
47
49
51
53
5557
59
61
64
66
68
71
25
26
27
28
30
31
33
35
36
38
40
41
43
45
47
49 51 1
53
55
57
59
61
63
65
67
26
25 26
27
29
30
32
33
35
36
38
40
41
43
45
47
48
50
52
54
56
58
60
62
64
27
23 25
26
27
29
30 32
33
35
36
38
39
41
43
45
46
48
50
52
54
56
58
60
62
28
22 24
25
26
28
29
30
32
33
35
36
38
39
41
43
44
46
48
50
51
53
55
57
59
29
22 23
24
25
26
28
29
30
32
33
35
36
38
39
41
43
44
46
48
49
51
53
55
57
30
21 22
23
24
25
27
28
29
31
32
33
35
36
38
39
41
42
44
46
47
49
51
53
54
31
20 21
22
23
24
26
27
28
29
31
32
33
35
36
38
39
41
42
44 46|
47
49
51
52
32
19 20
21
22
23
25
26
27
28
30
31
32
34
35
36
38
39
41
42
44
45
47
49
50
33
18 19
20
22
23
24
25
26
27
28
30
31
32
34
35
36
38
39
41
42
44
45
47
48
34
18 19
20
21
22
23
24
25
26
27
29
30
31
32
34
35
36
38
39
41
42
44
45
47
35
17 18
19
20
21
22
23
24
25
26
28
29
30
31
32
34
35
36
38
39
40
42
43
45
36
16ll7 18
19
20
21
22
23
24
25] 27
28
29
30
31
32
34
35
36
38
39
40
42
43
37
16 17 18
19
19
20
21
22
23
25 '26 27
28
29
3031
33
34 35
36
38
39
40
42
38
15 16:17
18
19
20
21 22
23
24:25 26
27
28
29,30
81
33
34I35I
36
38
39
40
39
15 16 16
17
18
19
2021
22
23 24 25
26
27
28 29
80
31
33
34
35
36
38
39
40
14 15 16
17
17
18
19
20
21
22 23 24
25
26
27128
29
30 31
33
34
35
36
37
140^ 1
42
13 14 15
16
16
17
18
19
2021 '21, 22
23|24
25,26
27
28129
30
31
33
34
35
138 1
44
12 13;i4
14
15
16
17
17
18, 19:2021
22123
24124
25
26'27
28
29
30
31
33
136 <
46
12
12 13
13
14 15
16
16
17 18*19 19
20 21
22,23
24,25 26
26
27
28
29
30
134
48
11
11
12
13
13 14
15
15
16|17 17|18
19 20
2021
22 23 24
25
26
26
27
28
139
50
10
11
11
12
12 13
14
14
15'l6 16 17
18 18|l9'20
21 21
22
23
24
25
25
26
130
52
9
10
10
U
1112
13 13
14 14 15 16
16(17 18 18
19 20
21
21
22
23
24
25
128
54
9
9
10
10
11
11
12 12
13 13 14 15
15 16,1617
18
18 19
20
21
21
22
23
126
56
8
9
9
9
10
10
11 11
12 12{13 14
1415 15 16
17
17il8
18
19 20 20
21
124
58
7
8
8
9
9
10
10
11
11 12 12,13
13,1414 15
i 1
15
16 16
17
I81 18
19
20
122
60
7
7
8
8
8
9
9
10
lo'll'll'l2
12 13 13 14
14
15 15
16
16
18
18
120 1
62
6
7
7
7
8
8
9
9 10 10 11
III12 12>13
13 14 14
15
15
16 16
17
118
64
6
6
6
7
7
8
8
9| 9
9,10
lOJll ll!l2
12
12 13
13
14
15
15
116 ;
66
5
6
6
6
7
7
7
8' 8
9
9
9
10 10 11
11
1M2
12
13
14
14
114 1
68
5
5
5
6
6
6
7
7| 7
8
8
8
9
9 10
10
1011
11
11
12
13
119 '
70
4
5
5
5
5
6
6
6 7
7
7
8
8
8 9
9
9 10
10
10
U 11
11
110
74
3
4
4
4
4
4
5
5 5
6
6
6
6
7
7
7
7 8
8 81 9
9
106 1
78
3
3
3
3
3
3
3
4 4
4
4
4
5
5
5
5
5 6
6
6 6
t
102 ';
82
2
2
2
2
2
2
2
«f 3
3 3
3
3
3
3
3
4! 4
4
4 4
4
98
86
1
1
1
1
1
1
1
1
1
1| 1
1
2
2
3
2 2 21 2
2 2, 2
2
94 1
90^
0
0
'
0
0
0
0
0
0
0
0
0
0
0
0
0
0 o| 0 0
0 0' 0
0
90°
Appar
Dia^
1
n
i8J9
40
41
41
i^
4^
4^
'^
47
4^
7*
i
ii
li
ii ii[ii U
S7'S^'m
60
^
Dit
tancc.
•
FIRST CORRECTION OF DISTANCE.
unca
46
TABLE VII.
For fiiulinf the Correction of the Lunar Distance for the Contraction of the Moon's Semidiameter.
TABIiE VII. A. GIVING THE ARGUMBNT FOR TABLB VII. B. |
Reduced
P.aiid R
of}).
APPARENT ALTITUDE OF 3). |
o
^1
I
'1
7
1
1
0
8J
0
9
o
1
10
o
11
i?
if
il
A.
\Uj_
i§
i
c
21
0
10
0 c
40 §0
41'
65
56
42
63
54
47
41
43
62
53
46
40
35
i
44
60
51
45
39
34
30
27
45
58
50
43
38
33
30
26
24
21
20
46
57
49
42
37
33
29
26
23
21
19
17
15
47
56
48
41
36
32
28
25
23
20
19
17
14
12
10
48
54
46
40
35
31
28
25
22
20
18
17
14
12
10
a
) 8
7 6
49
53
45
39
35
30
27
24
22
19
18
16
14
12
IC
a
8
7 6
6
5
3
50
52
44
38
34
30
26
24
21
19
17
16
13
11
10
a
8
7 6
5
5
3
3
2
51
50
43
38
33
29
26
23
21
19
17
15
13
11
10
fi
7 6
5
5
3
2
2
2
52
49
42
37
32
28
25
23
20
18
17
15
13
11
9
fi
7 6
5
3
2
2
2
53
48
41
36
32
28
25
22
20
18
16
15
12
11
9
fi
6 6
5
3
2
2
2
54
47
41
35
31
27
24
22
19
18
16
15
12
10
0
8
6 6
5
3
2
2
2
55
35
30
27
24
21
19
17
16
14
12
10
9
fi
6 6
5
3
2
2
2
56
26
23
21
19
17
15
14
12
10
9
8
6 5
5
3
2
2
2
57
18
17
15
14
12
10
9
7
6 5
5
3
2
2
2
58
13
11
10
8
7
6 5
5
3
2
2
2
59
8
7
6
6 5
5
3
2
2
2
60
3
2
2
2
Ti
^^^
VII. B. CONTRACTION OF }>'8 BEHIIDIAMKTKR.
~ li
Whole
Correciion
ARGUMENT = NUMBER FROM TABLE VIL A. ||
2
4
6
8
10
111
4 16
IS
20
22
24
26
28
II
10
___
11
32
14 36
18[40
44
"48
II
^2
u
^6
II
60
64
M
1
(f
11
11
If
H
1 ff
fi
»/
II
II
w
n
M II
II n
II
0
0
0
0
0
0
0
0 0
€
0
0
0
0
0
0
0
0 0
0 0
0
0
0
0
0
0
5
0
0
0
0
0
0
0 0
0
0
0
0
0
0
0
0
0 0
0 0
0
0
0
0
0
0
10
0
0
0
0
0
0
0 0
0
0
0
0
1
1
1
1
1 1
1 1
1
1
1
1
1
1
15
0
0
0
0
0
1 1
1
1
1
1
1
1
1
1
2 2
2 2
2
2
2
3
3
3
20
0
0
0
1
1
1 1
1
2
2
2
2
2
2
3
3 3
3 3
4
4
4
4
5
5
22
0
0
1
1 2
2
2
2
2
3
3
3
3
3 3
4 4
4
5
5
5
6
6
24
0
0
1
2 2
2
2
3
3
3
3
3
4
4 4
41 5
5
6
6
6
7
7
26
0
1
2 2
2
3
3
3
4
4
4
4
5 5
5 5
6
6
7
8
8
9
28
0
2
2 3
3
3
3
4
4
4
5
5
5 6
6 6
7
8
8
9
9
10
30
0
2
3 3
3
4
4
4
5
5
5
6
6 6
7 7
8
9
9
10
11
12
32
0
2
2
2
3 3
4
4
5
5
5
6
6
7
7 7
8 8
9
10
11
11
12
13
34
0
2
2
3
3 4
4
5
5
6
6
6
7
7
8 8
9; 9
10
11
12
13
14
15
36
2
2
3
3
4 4
5
5
6
6
7
7
8
8
9 9
10.10
U
12
13
15
16
17
38
2
2
3
3
4 5
5
6
6
7
8
8
9
9
10 10
I1I12
13
14
15
16
17
18
40
2
3
3
4
4 5
6
6
7
8
8
9
9
10
11 12
12 13
1
14
15
17
18
19 20 II
42
1
2
3
4
5 6
6
7
8
8
9 10
11
11
12 13
13 14
16
17
18
20
21
23
44
2
2
3
5
5 6
7
8
9
9
10 11
12
12
13 14
15 15
17
19
20
22
23
45
2
2
3
5
6 6
7
8
9
10
u|ii
12
13
14 15
15 16
18
19
21
23
24
46
2
3
3
5
6 7
7
8
9
10
ll:l2
13
14
14 15
16 17
19
20
22
24
47
2
3
5
6 7
8
9
10 11
11 12
13
14
15 16
17 18
1921
23
25
48
2
3
6
6 7
8
9
10 11
12 13
14
15
16 17
18 18
20*22
24
26
49
2
3
6
7 8
9
10
11 12
12 13
14
15
16 17
18 19
21 23
25
50
2
3
6
7 8
9
10
U
12
13 14
15
16
17 18
19 20
22 24
26
51
2
3
6
7 8
9
10
11
12
14 15
16
17
18 19
20 21
23; 25
27
52
2
3
6
8 9
10
11
12
13
14 15
16
17
18 19
21 22
24
26
53
1
2
3
7
S 9
lo'u
12
13
15
16
17
18
19 20
21 22
25
27
54
2
3
7
B 9
10!l2
13
14
15
16
17
19
20 21
22 23
26
55
2
4
6
7
B 10
11
12
13
15
16
17
18
19
21 22
56
3
4
5
6
8
9 10
11
13
14
15
16
57
4
5
7
_
^
^
^
_
When iha naorasl Umb is observed tubtraet this correction ; when the/arfAesf, add,
47
TABLE VIII.
For flndinf the Oomctkm of the Ltmnr DUtanee Ibr the Oontmctkm of the Sim'e Semtdiamet«r.
^ TABLB VIII. A. OlVIlfO THBS AROUMBBTT FOR TABLE VIII. B.
Reduced
Refraction
of©.
APPARENT ALTITUDE OP ©. |
o
i
1
I
1
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1
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ii
u
jl
il
li
ll
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17
2§
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0
2§
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83 18
1' 0"
30
80
34
24 29
S 0
35
37
42
46
46
30
40
48
44 '47
53
59
1
3 0
N
44
46
49
51
53|57
i
30
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45
48
5l|54
57
60
68 167
1
4 0
49
52
55
59162
65
68
30
47
49
51
55
59
63
66170
1
5 0
47
50
58
54
57
61
66
70
74
1
30
47
50
52
55
57
60
62
67
72
6 0
49
58
55
60
63
66
68
74
SO
50
53
56
59
65
68
71
74
7 0
51
54
58
61
64
70
74
30
55
58
62
65
69
75
8 0
55
59
68
66
70
73
30
59
63
66
70
74
78
9 0
62
66
70
74
79
30
66
70
74
79
10 0
69
74
78
30
73
77
11 0
76
81
30
80
TABLB VIII. B. CO!fTR
ACTION OP
«BER FROW
©*8 BKBIIDIAMBTIBR.
Whole
Correcti<«i
ARQUMENT = NUJ
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40
44
46
48
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64
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72
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76,78
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II
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0 0
0
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0
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0
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0
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0 0
0
0
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3 0
8
8
8
a
2
2
2
1
1
1
1
1
1
1 1
1
1
^ >
30
3
3
3
2
2
2
2
2
2
2
8
21 3
2
a
I' 1
3 0
4
4
4
3
3
3
3
3
3
8
8 8
2
2
8 8,
30
5
5
5
4
4
4
4
3
3
3 3
3
3
3 3
4 0
7
6
6
6
5
5
5
5
4
4 4
4
4
4 4
20
7
7
7
6
6
6
5
5
5 5
5 5
4 4
40
9
8
8
8
7
7
7
6
6
6 6
5
5
5\ 5
5 0
10
9
9
9
8
8
8
7
7
7i 6
1
6
6
6 6j
80
11
10
10
9
9
9
9
8
8
8' 7
7
7
7
7
40
12
12
11
11
10 10
10
9
9
9; 8
8
8
8
7
6 0
13
12
12
12 11
11 10
10
10
10 9
9
9
9 8!
80
14
14
13
13
12
12 12
11
11
11 10
10
10
10' 9
40
16
15
15
14
14
13
13
13
18
13 11
11
11
UjlO
7 0
18
17
16
16
15
15
14
14
13
13 13
12
18
13 M
80
19 18|
17
17
16
16
15
15
14,14
13
131 13 Ii 1
40
20
19
18
18;i7
17
16
16 15
15
14 U'U 1
8 0
21
21
20
19 19
18
17
17 16
16
16' 15;i5 ,
20
22
21|20
20
19
18 18
17^17, 16^16 1
40
23
23 28
21
80
80 19
19 18! 18 17
9 0
34
23 22', 21|81|
80 80. 19,19
80
85
84 83,881
88; 81, 81130
40
85
85 84
83t 83 82 88 \
10 .0
86
86
85^ 84 84 33
80
88
87 86, 85
85
40
88 88
37
36
11 0
39
88
80
i**,
tinbtrucl lhi« carrrction from the diiUnce,
48
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
d
i
i
3
4
5
6
7
II
8
II
9
0^ 0^ 0^
0.0000
0.3010
0.4771
0.6021
0.6990
0.7782
08451
0.9031
0.9542
0
10
1.0000
1.0414
1X)792
1.1139
1.1461
1.1761
1.2041
1.2304
1.2553
1.2788
0
20
1.3010
1.3222
1.3424
1.3617
1.3802
1.3979
14150
1.4314
1.4472
14624
0
30
1.4771
1.4914
1.5051
1.5185
1.5315
1.5441
1.5563
1.5682
1.5798
1.5911
0
40
1.6021
1.6128
1.6232
1.6335
1.6435
1.6532, 1.6628J 1.6721 1
1.6812
1.6902
0
50
1.6990
1.7076
1.7160
1.7243
1.7324
1.7404
1.7482
1.7559
1.7634
1.7709
0 1
0
1.7782
1.7853
1.7924
1.7993
1.8062
1.8129
1.8195
1.8261
1.8325
1.8388
10
1.8451
1.8513
1.8573
1.8633
1.8692
1.8751
1.8808
1.8865
1.8921
1.8976
20
1.9031
1.9085
1.9138
1.9191
1.9243
1.9294
1.9345
1.9395
1.9445
1.9494
80
1.9542
1.9589
1.9638
1.9685
1.9731
1.9777
1.9823
1.9868
1.9912
1.9956
40
2.0000
2.0043
2.0086
2.0128
2.0170
2.0212
2.0253
2.0294
2.0334
2.0374
50
2.0414
2.0453
2.0492
2.0531
2.0569
2J0607
2.0645
2.0682
2.0719
2.0755
0 3
0
2.0792
2.0828
2.0864
2.0899
2.0934
2.0969
2.1004
2.1038
2.1072
2.1106
10
2.1139
2.1173
2.1206
2.1239
2.1271
2.1303
2.1335
2.1367
2.1399
2.1430
20
2.1461
2.1492
2.1523
2.1553
2.1584
2.1614
2.1644
2.1673
2.1703
2.1732
*
30
2.1761
2.1790
2.1818
2.1847
2.1875
2.1903
2.1931
2.1959
2.1987
2.2014
2
40
2.2041
2.2068
2.2095
2.2122
9.2148
2.2175
2.2201
2.2227
2.2253
2.2279
3
50
2.2304
2.2330
2.2355
2.2380
2.2405
2.2430
2.2455
2.2480
2.2504
2.2529
0 3
0
2.2553
2.2577
2.2601
2.2625
2.2648
2.2672
2.2695
2.2718
2.2742
2.2765
3
10
2.2788
2.2810
2.2833
2.2856
2.2878
2.2900
2.2923
2.2945
2.2967
2.2989
3
20
2.3010
2.3032
2.^54
2.3075
23096
2.3118
2.3139
2UJ160
2.3181
2.3201
3
30
2.3222
2.3243
2.3263
2.3284
2.3304
2.3324
2.3345
2.3365
2.3385
2.3404
3
40
2.3424
2.3444
2.3464
2.3483
2.3502
2.3522
2.3541
2.3560
2.3579
2.3598
3
50
23617
2.3636
2.3655
2.3674
2.3692
2.3711
2.3729
2.3747
2.3766
2.3784
0 4
0
2.3802
2.3820
23838
2.3856
2.3874
2.3892
2.3909
2.3927
2.3945
2.3962
1 4
10
2.3979
2.3997
24014
2.4031
24048
24065
2.4082
2.4099
2.4116
24133
4
20
2.4150
2.4166
2.4183
2.4200
2.4216
24232
2.4249
24265
24281
24298
4
30
2.4314
24330
2.4346
24362
2.4378
2.4393
2.4409
2.4425
24440
2.4456
4
40
2^72
2.4487
2.4502
2.4518
24533
2.4548
24564
24579
24594
24609
4
50
2.4624
2.4639
24654
24669
2.4683
24698
24713
24728
24742
24757
0 5
0
2.4771
2.4786
2.4800
2.4814
2.4829
24843
24857
2.4871
24886
24900
5
10
2.4914
2.4928
2.4942
24955
24969
24983
24997
2.5011
2.5024
2.5038
5
20
2.5051
2.5065
2.5079
2.5092
2.5105
2.5119
2.5132
2.5145
2.5159
2.5172
5
80
2.5185
2.5198
2.5211
2.5224
2.5237
2.5250
2.5263
2.5276
2.5289
2.5302
5
40
2.5315
2.5328
2.5340
2.5353
2.5366
2.5378
2.5391
25403
2.5416
2.5428
5
50
2.5441
2.5453
2.5465
2.5478
2.5490
2.5502
2.5514
2.5527
2.5539
2.5551
0 6
0
2.5563
2.5575
2.5587
2.5599
2.5611
2.5623
2.5635
2.5647
2.5658
2.5670
i ^
10
2.5682
2.5694
2.5705
2.5717
2.5729
2J5740
2.5752
2.5763
2.5775
2.5786
^
20
2.5798
2.5809
2.5821
2.5832
2.5843
2J>855
2.5866
2.5877
2.5888
2.5899
6
30
2.5911
2.5922
2.5933
2.5944
2.5955
2.5966
2.5977
2.5988
2.5999
2.6010
6
40
2.6021
2.6031
2.6042
2.6053
2.6064
2.6075
2.6085
2.6096
2.6107
2.6117
6
50
2.6128
2.6138
2.6149
2.6160
2.6170
2.6180
2.6191
2.6201
2.6212
2.6222
0 7
0
2.6232
2.6243
2.6253
2.6263
2.6274
^.6284
2.6294
2.6304
2.6314
2.6325
7
10
2.6335
2.6345
2.6355
2.6365
2.6375
2.6385
2.6395
2.6405
2.6415
2.6425
7
20
2.6435
2.6444
2.6454
2.6464
2.6474
2.6484
2.6493
2.6503
2.6513
2.6522
7
30
2.6532
2.6542
2.6551
2.6561
2.6571
2.6580
2.6590
2.6599
2.6609
2.6618
7
40
2.6628
2.6637
2.6646
2.6656
2.6665
2.6675
2.6684
2.6693
2.6702
2.6712
7
50
2.6721
2.6730
2.6739
2.6749
2.6758
2.6767
2.6776
2.6785
2.6794
2.6803
0 8
0
2.6812
2.6821
2.6830
2.6839
2.6848
2.6857
2.6866
2.6875
2.6884
2.6893
8
10
2.6902
2.«911
2.6920
2.6928
2.6937
2.6946
2.6955
2.6964
2.6972
2.6981
8
20
2.6990
2.6998
2.7007
2.7016
2.7024
2.7033
2.7042
2.7050
2.7059
2.7067
8
30
2.7076
2.7084
2.7093
2.7101
2.7110
2.7118
2.7126
2.7135
2.7143
2.7152
8
40
2.7160
2.7168
2.7177
2.7185
2.7193
2.7202
2.7210
2.7218
2.7226
2.7235
8
50
2.7243
2.7251
2.7259
2.7267
2.7275
2.7284
2.7292
2.7300
2.7308
2.7316
0 9
0
2.7324
2.7332
2.7340
2.7348
2.7356
2.7364
2.7372
2.7380
2.7388
2.7396
9
10
2.7404
2.7412
2.7419
2.7427
2.7435
2.7443
2.7451
2.7459
2.7466
2.7474
9
20
2.7482
2.7490
2.7497
2.7505
2.7513
2.7520
2.7528
2.7536
2.7543
2.7551
9
30
2.7559
2.7566
2.7574
2.7582
2.7589
2.7597
2.7604
2.7612
2.7619
2.7627
9
40
2.7634
2.7642
2.7649
2.7657
2.7664
2.7672
2.76791 2.7686
2.7694
2.7701
9
50
2.7709
2.7716
2.7723
2.7731
2.7738
27745
2.7752 2.7760
2.7767
2.7774
^
f
1
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME. |
Arc
0
i
^
3
4
N
6
N
6
N
7
^
N
9
O. 1 tl
Ohio-- 0«-
2.7782
2.7789
2.7796
2.7803
2.7810
2.7818
2.7825
2.7832
2.7839
2.7846
10
10
2.7853
2.7860
2.7868
2.7875
2.7882
2.7889
2.7896
2.7903
2.7910
2.7917
10
20
2.7924
2.7931
2.7938
2.7945
2.7952
2.7959
2.7966
2.7973
2.7980
2.7987
10
30
2.7993
2.8000
2.8007
2.8014
2.8021
2.8028
2.8035
2.8041
2.8048
2.8055
10
40
2.8062
2.8069
2.8075
2.8082
2.8089
2.8096
2.8102
2.8109
2.8116
2.8122
10
50
2.8129
2.8136
2.8142
2.8149
2.8156
2.8162
2.8169
2.8176
2.8182
2.8189
0 11
0
2.8195
2.8202
2.8209
2.8215
2.8222
2.8228
2.8235
2.8241
2.8248
2.8254
11
10
2.8261
2.8267
2.8274
2.8280
2.8287
2.8293
2.8299
2.8306
2.8312
2.8319
11
20
2.8325
2.8331
2.8338
2.8344
2.8351
2.8357
2.8363
2.8370
2.8376
2.8382
11
80
2^88
2.8395
2.8401
2.8407
2.8414
2.8420
2.8426
2.8432
2.8439
2.8445
11
40
2.8451
2.8457
2.8463
2.8470
2.8476
2.8482
2.8488
2.8494
2.8500
2.8506
11
50
2.8513
2.8519
2.8525
2.8531
2.8537
2.8543
2.8649
2.8555
2.8561
2.8567
0 12
0
2.8573
2.8579
2.8585
2.8591
2.8597
2.8603
2.8609
2.8615
2.8621
2.8627
12
10
2.8633
2.8639
2.8645
2.8651
2.8657
2.8663
2.8669
2.8675
2.8681
2.8686
12
20
2.8692
2.8698
2.8704
2.8710
2.8716
2.8722
2.8727
2.8733
2.8739
2.8745
12
30
2.8751
2.8756
2.8762
2.8768
2.8774
2.8779
2.8785
2.8791
2.8797
2.8802
12
40
2.8808
2.8814
2.8820
2.8825
2.8831
2.8837
2.8842
2.8848
2.8854
2.8859
12
50
2.8865
2.8871
2.8876
2.8882
2.8887
2.8893
2.8899
2.8904
2.8910
2.8915
0 IS
0
2.8921
2.8927
2.8932
2.8938
2.8943
2.8949
2.8954
2.8960
2.8965
2.8971
13
10
2.8976
2.8982
2.8987
2.8993
2.8998
2.9004
2.9009
2.9015
2.9020
2.9025
13
20
2.9031
2.9036
2.9042
2.9047
2.9053
2.9058
29063
2.9069
2.9074
2.9079
13
30
2.9085
2.9090
2.9096
2.9101
2.9106
2.9112
2.9117
2.9122
2.9128
2.9133
13
40
2.9138
2.9143
2.9149
2.9154
2.9159
2.9165
2.9170
2.9175
2.9180
2.9186
13
50
2.9191
2.9196
2.9201
2.9206
2.9212
2.9217
2.9222
2.9227
2.9232
29238
0 14
0
2.9243
2.9248
2.9253
2.9258
2.9263
2.9269
2.9274
2.9279
2^284
2.9289
U
10
2.9294
2,9299
2.9304
2.9309
2.9315
2.9320
2.9325
2.9330
2.9335
2.9340
U
20
2.9345
2.9350
2.9355
2.9360
2.9365
2.9370
2.9375
2.9380
2 9385
2.9390
14
30
2.9395
2.9400
2.9405
2.9410
2.9415
2.9420
2.9425
2.9430
2.9435
2.9440
14
40
2.9445
2.9450
2.9455
2.9460
2.9465
2.9469
2.9474
2.9479
2.9484
2.9489
14
60
2.9494
2.9499
2.9504
2.9509
2.9513
2.9518
2.9523
2.9528
2.9533
2.9538
0 15
0
2.9542
2.9547
2.9552
2.9557
2.9562
2.9566
2.9571
2.9576
2.9581
2.9586
15
10
2.9590
2.9595
2.9600
2.9605
2.9609
2.9614
2.9619
2.9624
2.9628
2.9633
15
20
2.9638
2.9643
2.9647
2.9652
2.9657
2.9661
2.9666
2.9671
2.9675
2.9680
15
30
2.9685
2.9689
2.9694
2.9699
2.9703
2.9708
2.9713
2.9717
2.9722
2.9727
15
40
2.9731
2.9736
2.9741
2.9745
2.9750
2.9754
2.9759
2.9763
2.9768
2.9773
15
50
2.9777
2.9782
2.9786
2.9791
2.9795
2.9800
2.9805
2.9809
2.9814
2.9818
0 16
0
2.9823
2.9827
2.9832
2.9836
2.9841
2.9845
2.9850
2.9854
2.9859
2.9863
16
10
2.9868
2.9872
29877
2.9881
2.9886
2.9890
2.9894
2.9899
24)903
2.9908
16
20
2.9912
2.9917
2.9921
2.9926
2.9930
2.9934
2.9939
2.9943
2.9948
2.9962
16
30
2.9956
2.9961
2.9965
2.9969
2.9974
2.9978
2.9983
2.9987
2.9991
2.9996
16
40
3.0000
3.0004
3i)009
3.0013
3.0017
8.0022
34)026
3.0030
3.0035
3.0039
16
50
3J0043
3.0048
3.0052
SJ0056
3X)060
3.0065
3.0069
34)073
34)077
34)082
0 17
0
3.0086
3.0090
3.0095
3.0099
3.0103
S.0107
34)111
34)116
34)120
3.0124
17
10
3.0128
3X)133
3.0137
3.0141
3i)145
3.0149
3.0154
3.0158
3.0162
3.0166
17
20
3.0170
3.0175
3.0179
3.0183
8.0187
3.0191
3.0195
34)199
3.0204
2.0208
17
30
3.0212
3.0216
3.0220
3.0224
3.0228
3.0233
3.0237
3.0241
34)245
3.0249
17
40
3J02M
3.0257
3.0261
3.0265
3.0269
3.0273
3.0278
34)282
34)286
8.0290
17
50
a0294
3.0298
3.0302
3.0306
3.0310
3.0314
34)318
3.0322
34)326
34)330
0 18
0
3.0334
3.0338
3.0342
3.0346
3.0350
3X)354
3.0358
34)362
34)366
34)370
18
10
3.0374
3.0378
S.a382
3.0386
3.0390
3X)394
3 0398
3.0402
3.0406
3.0410
18
20
3.0414
3.0418
SJ0422
3.0426
3.0430
SX>434
3.0438
34)441
34)445
8.0449
18
SO
3.0453
3.0457
3.0461
3.0465
3.0469
3X)473
3.0477
34M81
34)484
3.0488
18
40
3.0492
3.0496
3.0500
3.0504
3.0508
3X)512
34)515
3.0519
3.0523
3.0527
18
50
3.0531
3.0535
3X)538
3.0542
SX)546
3.0550
3.0554
30558
34)561
34)665
0 19
0
3.0569
3.0573
3.0577
3.0580
3.0584
3.0588
34)592
3.0596
34)599
3.0603
19
10
SJ0607
3.0611
3.0615
3.0618
3X)622
3.0626
34)630
3.0633
34)637
3.0641
19
20
3.0645
3.0648
3.0652
3.0656
3.0660
3.0663
34)667
34)671
3.0674
34)678
19
30
3.0682
3.0686
3.0689
a0693
34)697
3X)700
34)704
34)708
34)711
3.0715
19
40
3.0719
3.0722
3.0726
3.0730
3X)734
3.0737
3.0741
3.0745
3.0748
3.0752
19
50
3.0755
3.0759
3.0763
3.0766
3.0770
3.0774
3.0777
3.0781
34)785
30788
50
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Are.
n
0
N
1
^
i
i
5
n
6
7
8
9
O. 1 It
3.0792
3.0795
8.0799
3.0803
3.0806
3.0810
3.0813
3.0817
3.0821
3.0824
20 10
3.0828
3i)831
3.0835
3.0839
3.0842
3.0846
3.0849
3.0853
3.0856
3.0860
20 20
3X)864
3.0867
3.0871
3.0874
8.0878
3.0881
3.0885
3.0888
3.0892
3.0896
20 30
3.0899
3.0903
3.0906
3.0910
3.0913
3.0917
3.0920
3.0924
3.0927
3.0931
20 40
3.0934
3.0938
3.0941
3.0945
3.0948
3.0952
3.0955
3.0959
3.0962
3.0966
20 50
3.0969
3.0973
3.0976
3.0980
3.0983
3.0986
3.0990
3.0993
3.0997
3.1000
0 21 0
3.1004
8.1007
3.1011
3.1014
3.1017
3.1021
3.1024
3.1028
3.1031
31035
21 10
3.1038
3.1041
3.1045
3.1048
3.1052
3.1055
3.1059
3.1062
3.1065
3.1069
21 20
3.1072
3.1075
3.1079
3.1082
3.1086
3.1089
3.1092
3.1096
3.1099
3.1103
21 SO
3.1106
3.1109
3.1113
3.1116
3.1119
3.1123
3.1126
3.1129
3.1133
3.1136
21 40
3.1139
3.1143
3.1146
3.1149
3.1153
3.1156
3.1159
3.1163
3.1166
3.1169
21 50
3.1173
3.1176
3.1179
31183
3.1186
3.1189
3.1193
3.1196
3.1199
3.1202
0 22 0
3.1206
3.1209
3.1212
3.1216
3.1219
3.1222
3.1225
3.1229
8.1232
3.1235
22 10
3.1239
3.1242
3.1245
3.1248
3.1252
3.1255
3.1258
3.1261
3.1265
31268
22 20
3.1271
3.1274
3.1278
3.1281
3.1284
3.1287
3.1290
3.1294
3.1297
3.1300
22 30
3.1303
3.1307
3.1310
3.1313
3.1316
3.1319
3.1323
3.1326
3.1329
3.1332
22 40
3.1335
3.1339
3.1342
3.1345
3.1348
3.1351
3.1355
3.1358
3.1361
3.1364
22 50
3.1367
3.1370
3.1374
3.1377
3.1380
3.1383
3.1386
3.1389
3.1392
3.1396
0 23 0
3.1399
8.1402
3.1405
3.1408
3.1411
3.1414
3.1418
31421
3.1424
3.1427
23 10
3.1430
8.1433
3.1436
3.1440
31443
3.1446
3.1449
3.1452
3.1455
3.1458
23 20
3.1461
3.1464
3.1467
3.1471
3.1474
3.1477
3.1480
3.1483
3.1486
3.1489
23 30
3.1492
3.1495
3.1498
3.1501
3.1504
3.1508
3.1511
3.1514
3.1517
3.1520
23 40
3.1523
3.1526
3.1529
3.1532
3.1535
3.1538
3.1541
3.1544
3.1547
3.15.50
23 50
3.1553
3.1556
3.1559
3.1562
3.1565
3.1569
3.1572
3.1575
3.1578
3.1581
0 24 0
3.1584
3.1587
3.1590
3.1593
3.1596
3.1599
3.1602
3.1605
3.1608
3.1611
24 10
3.1614
3.1617
3.1620
3.1623
3.1626
3.1629
3.1632
3.1635
3.1638
3.1641
24 20
3.1644
3.1647
3.1649
3.1652
3.1655
3.1658
3.1661
3.1664
3.1667
3.1670
24 30
3.1673
3.1676
3.1679
3.1682
3.1685
3.1688
3.1691
3.1694
3.1697
3.1700
24 40
3.1703
3.1706
3.1708
3.1711
3.1714
31717
3.1720
3.1723
3.1726
3.1729
24 50
3.1732
3.1735
3.1738
3.1741
3.1744
3.1746
3.1749
3.1752
3.1755
3.1758
0 25 0
3.1761
3.1764
3.1767
3.1770
3.1772
3.1775
3.1778
3.1781
3.1784
3.1787
25 10
3.1790
3.1793
3.1796
3.1798
3.1801
3.1804
3.1807
3.1810
3.1813
3.1816
25 20
3.1818
3.1821
3.1824
3.1827
3.1830
3.1833
3.1836
3.1838
3.1841
3.1844
25 30
3.1847
3.1850
3.1853
3.1855
3.1858
3.1861
3.1864
3.1867
3.1870
3.1872
25 40
3.1875
3.1878
3.1881
3.1884
3.1886
3.1889
3.1892
3.1895
3.1898
3.1901
25 50
3.1903
3.1906
3.1909
3.1912
3.1915
3.1917
3.1920
3.1923
3.1926
3.1928
0 26 0
3.1931
3.1934
3.1937
3.1940
3.1942
3.1945
3.1948
3.1951
3.1953
3.1956
26 10
3.1959
3.1962
3.1965
3.1967
3.1970
3.1973
3.1976
3.1978
3.1981
3.1984
26 20
3.1987
3.1989
3.1992
3.1995
3.1998
3.2000
3.2003
3.2006
3.2009
3.2011
26 30
3.2014
3.2017
3.2019
3.2022
3.2025
3.2028
3.2030
3.2033
3.2036
3.2038
26 40
3.2041
3.2044
3.2047
3.2049
3.2052
3.2055
3.2057
3.2060
3.2063
3.2066
26 50
3.2068
3.2071
3.2074
3.2076
3.2079
3.2082
3^2084
3.2087
3^2090
3.2092
0 27* 0
3.2095
3.2098
3.2101
3.2103
3.2106
3:2109
3.2111
3.2114
3.2117
3.2119
27 10
3.2122
3.2125
3.2127
3.2130
3.2133
3.2135
3.2138
3.2140
3.2143
3.2146
27 20
3.2148
3.2151
3.2154
3.2156
3.2159
3.2162
3.2164
3.2167
3.2170
3.2172
27 30
3.2175
3.2177
3.2180
3.2183
3.2185
3.2188
3.2191
3.2193
3.2196
3.2198
27 40
3.2201
3.2204
3.2206
3.2209
3.2212
3.2214
3.2217
3.2219
3.2222
3.2225
27 50
3.2227
3.2230
3.2232
3.2235
3.2238
3.2240
3.2243
3.2245
3.2248
3.2250
0 28 0
3.2253
3.2256
3.2258
3.2261
3.2263
3.2266
3.2269
3.2271
3.2274
3.2276
28 10
3.2279
3.2281
3.2284
3.2287
3.2289
3.2292
3.2294
3.2297
3.2299
3.2302
28 20
3.2304
3.2307
3.2310
3.2312
3.2315
3.2317
3.2320
3.2322
3.2325
3.2327
28 30
3.2330
3.2333
3.2335
3.2338
3.2340
3.2343
3.2345
3.2348
3.2350
3.2353
28 40
3.2355
3.2358
3.2360
3.2363
3.2365
3.2368
3.2370
3.2373
3.2375
3.2378
28 50
3.2380
3.2383
3.2385
3.2388
3.2390
3.2393
3.2395
3.2398
3.2400
3.2403
0 29 0
3.2405
3.2408
3.2410
3.2413
3.2415
3.2418
3.2420
3.2423
3.2425
8.2428
29 10
3.2430
3.2433
3.2435
3.2438
3.2440
3.2443
3.2445
3.2448
3.2450
3.2453
29 20
3.2455
3.2458
3.2460
3.2463
3.2465
3.2467
3.2470
3.2472
3.2475
3.2477
29 30
3.2480
3.2482
3.2485
3.2487
3.2490
3.2492
3.2494
3.2497
3.2499
3.2502
29 40
3.2504
3.2507
3.2509
3.2512
3.2514
3.2516
3.2519
3.2521
3.2524
3.2526
29 50
3.2529
3.2531
3.2533
3.2536
3.2538
3.2541
3.2543
3.2545
3.2548
3.2550
51
TABUB IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc.
d
i
^
3
II
4
5
6
i
^
9
hHo^- &.]
3^553
3.2555
8.2558
3.2560
3.2562
8.2565
8.2567
8.2570
8.2572
8.2574
30
10
3.2577
3.2579
8.2582
3.2584
8.2586
8.2569
3.2591
8.2594
8.2596
8.2598
30
20
3.2601
8.2603
3.2605
3.2608
3.2610
3.2618
8.2615
8 2617
8.2620
3.2622
30
SO
3.2625
3.2627
3.2629
3.2632
8.2634
8.2686
a2689
3.2641
8.2643
3.2646
30
40
3.2648
3.2651
3.2658
3.2655
8.2658
3.2660
8.2662
8.2665
3.2667
8.2669
30
50
3.2672
3.2674
8.2676
3.2679
8.2661
3.2668
8.2666
8.2688
8.2690
3.2693
0 31
0
3.2695
3.2697
8.2700
3.2702
3.2704
3.2707
3.2709
8.2711
8.2714
3.2716
31
10
3.2716
8.2721
3.2723
3.2725
8.2728
8.2730
3.2782
8.2735
8.2737
3.2739
31
20
3.2742
8.2744
3.2746
8.2749
3.2751
3.2753
3.9755
8.2758
3.2760
3.2762
31
30
3.2765
3.2767
8^769
3.2772
3.2774
3.2776
3.2778
3.2781
8.2788
3.2785
31
40
3.2788
3.2790
3.2792
3.2794
3.2797
a.2799
3.2801
3.2804
8.2806
3.2808
31
50
3.2810
3.2818
3.2815
3.2817
3.2819
8.2822
8.2824
8.2826
8.2828
3J831
0 82
0
3.2833
8.2885
3.2838
3.2840
3.2842
8.2844
3.2847
8.2849
8.2851
3.2858
32
10
3.2856
3.2858
3.2860
3.2862
3.2865
3.2867
3.2869
8.2871
3.2874
3.2876
32
20
3.2878
3.2880
3.2882
3.2885
3.2887
3.2889
3.2891
8.2894
3.2896
8.2898
32
30
3.2900
3.2903
3.2905
3.2907
8.2909
3.2911
a2914
3.2916
3.2918
3.2920
32
40
3.2923
3.2925
3.2927
8.2929
3.2931
3.2934
3.2986
3.2988
8.2940
3.2942
32
50
3.2945
3.2947
3.2949
3.2951
3.2953
3.2956
3.2958
8.2960
8.2962
3J964
0 a3
0
3.2967
3.2969
8.2971
8.2978
8.2975
3.2978
3.2980
3.2982
8.2984
3.2986
33
10
3.2989
3.2991
3^2993
3.2995
3.2997
3.2999
33002
33004
83006
33008
33
20
3.3010
3.3012
3.3015
33017
33019
33021
33023
33025
83028
33030 '
33
30
3.3032
3.3034
3JJ036
33038
3.3041
83043
33045
33047
33049
33051
33
40
3.3054
3.3056
3.3058
83060
8.3062
33064
33066
33069
83071
83073
33
50
3.3075
33077
3J5079
33091
33084
33086
33088
83090
83092
83094
0 34
0
3.3096
3.3098
3.3101
83103
83105
33107
33109
33111
33113
33115
34
10
3.3118
3.3120
3.3122
33124
33126
33128
33180
33132
33134
33137 ;
34
20
3.3139
3.3141
3.3143
33145
33147
33149
33151
33153
83156
33158
34
SO
3.3160
3.3162
3.3164
33166
33168
33170
33172
33174
33176
83179 «
34
40
3.3181
3.3183
3J3185
33187
33189
33191
33193
33195
33197
33199
34
50
3.3201
3.3204
3.3206
33208
83210
83212
33214
33216
33218
33220 '
0 35
0
3.3222
3.3224
3.3226
33228
33230
33233
33235
33237
33239
33241
35
10
8.3243
3.3245
3.3247
33249
33251
33253
33255
33257
33259
33261
35
20
3.3263
3.3265
3.3267
33269
33272
33274
33276
33278
33280
33282
35
30
3.3284
3.3286
3.3288
83290
33292
33294
33296
33298
83300
33302
35
40
3.3304
3.3306
3.3308
33310
33312
33314
33316
33318
33320
33322
35
50
3.3324
8.8326
3.3328
33380
33332
33334
33336
33389
33341
83348
0 36
0
3.3345
8.8347
3.8349
33351
33353
83355
33357
83359
33361
33863
36
10
3.3365
3.3367
3.3369
33371
33373
33375
33377
33379
83381
33383
36
20
3.3385
3.3387
3.3389
33391
33393
33395
33397
33398
33400
33402
36
30
3.3404
3.3406
3.3408
3.3410
33412
33414
33416
33418
33420
33422
36
40
3.3424
3.3426
3.3428
33430
33432
33434
33436
33438
33440
33442 ■
33462 ||
36
50
3.3444
3.3446
3.3448
3.3450
3.3452
33454
33456
33458
33460
0 37
0
3.3464
3.3465
3.8467
33469
3.3471
33473
33475
33477
33479
33481 l!
37
10
3.3483
3.3485
3.3487
33489
33491
33493
33495
83497
33499
33501 '
37
20
8.3502
3.3504
3.3506
33.508
33510
33512
33514
33516
33518
33520
37
30
3.3522
33524
3.3526
33528
33530
3.3531
33533
33535
33537
33539
37
40
3.3541
3.3543
3.3545
33.'>47
33549
33551
83553
33555
33556
33558
1' 37
50
3.3560
8 8562
3.3564
83566
33568
33570
33572
33574
33576
33577
0 38
0
3.3579
3.3.'>8l
3.3583
33585
33587
33589
33591
33593
33595
33596 1
38
10
3.3598
3.8600
3.3602
33604
33606
33608
33610
33612
33614
33615 ,
38
20
3.3617
8.3619
3.3621
33623
8.3625
33627
33629
33630
33632
3 3634 >
38
80
3.3636
8.8688
8.3640
33642
33644
33646
33647
33649
33651
33653
38
40
3.3655
3.8657
3.3659
83660
3.3662
83664
33666
33668
33670
83672 >
38
50
3^674
3.3675
33677
83679
3.3681
33683
33685
83687
33688
33690 1
0 39
0
3.3692
3.8694
33696
33698
33700
33701
33703
33705
83707
33709
39
10
3.8711
3.8713
33714
33716
33718
83720
33722
33724
33725
33727
39
20
8.8729
8.8731
33733
33735
33736
33738
83740
83742
33744
33746 ,1
39
30
33747
3.3749
33751
33753
337.55
33757
33758
33760
33762
33764 i'
39
40
3.3766
3.3768
33769
33771
33773
33775
33777
33779
33780
33782 '
39
50
3.3784
8.3786
33788
83789
33791
33793
33795
83797
83798
33800
52
TABI^E IX.
]
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
d
i
i
i
4
5
6
7
8
9
2w * "
3^802
3.3804
3.3806
3.3808
3.3809
3.3811
3.3813
8.3815
3.3817
3.3818
40
10
3J820
3.3822
3.3824
3.3826
3.3827
3.3829
3.3831
3J)833
3.3835
3.3836
40
20
3^838
3J3840
3.3842
3.3844
3.3845
3.3847
8.3849
3.3851
3.3852
3.3854
40
30
3^856
3.3858
3.3860
3.3861
3J5863
3^865
3.3867
3.3869
3.3870
3.3872
40
40
3^74
3.3876
3.3877
3.3879
3.3881
3.3883
3.3885
3.3886
3.3888
3.3890
40
50
3^892
3.3893
8.3895
3.3897
3J)899
dU)901
3.3902
3.3904
3.3906
3.3908
0 41
0
3.3909
3.3911
3.3913
3.3915
3.3916
3.3918
3.3920
3.3922
3.3923
3.3925
41
10
3^927
3.3929
3.3930
3.3932
3.3934
3.3936
3.3938
3.3939
3.3941
3.3943
41
20
3.3945
3.3946
3.3948
3.3950
3 3952
3.3953
3.3955
3.3957
3.3959
3.3960
41
SO
3^962
3.3964
3.3965
3.3967
3.3969
3.3971
3.3972
3.3974
3.3976
3.3978
41
40
3.3979
3.3981
3.3983
3.3985
3.3986
3.3988
3.3990
3.3992
3.3993
3.3995
41
50
3^997
3.3998
3.4000
3.4002
34004
3.4005
3.4007
3.4009
3.4011
3.4012
0 42
0
3.4014
3.4016
34017
3.4019
34021
3.4023
34024
3.4026
34028
3.4029
42
10
3.4031
3.4033
34035
3.4036
3.4038
3.4040
3.4041
34043
3.4045
3.4047
42
20
3.4048
3.4050
3.4052
3.4053
34055
3.4057
3.4059
3.4060
34062
3.4064
42
30
3.4065
3.4067
34069
3.4071
3.4072
34074
3.4076
34077
3.4079
34081
42
40
3.4082
3.4084
3.4086
3.4087
34089
34091
34093
3.4094
34096
34098
42
50
3.4099
3.4101
34103
34104
34106
34108
34109
34111
3.4113
34115
0 43
0
3.4116
3.4118
34120
34121
34123
34125
34126
34128
34130
34131
43
10
3.4133
3.4135
34136
34138
34140
34141
34143
34145
34146
34148
43
20
3.4150
3.4151
34153
34155
34156
34158
34160
34161
34163
34165
43
30
3.4166
3.4168
34170
34171
34173
34175
34176
34178
34180
34181
43
40
34183
3.4185
34186
34188
34190
34191
34193
34195
34196
34198
43
50
3.4200
3.4201
34203
34205
34206
34208
34209
3.4211
34213
3.4214
0 44
0
3.4216
3.4218
34219
34221
34223
34224
34226
34228
34229
34231
44
10
3.4232
3.4234
34236
34237
34239
34241
34242
34244
34246
34247
44
20
3.4249
3.4250
34252
34254
3.4255
34257
34259
34260
34262
3.4263
44
30
3.4265
3.4267
3.4268
34270
34272
34273
34275
34276
34278
34280
44
40
3.4281
3.4283
34285
34286
3.4288
34289
3.4291
34293
3.4294
34296
44
50
3.4298
3.4299
3.4301
3.4302
34304
3.4306
3.4307
3.4309
3.4310
3.4312
0 45
0
3.4314
3.4315
3.4317
3.4318
3.4320
3.4322
3.4323
3.4325
3.4326
34128
45
10
3.4330
3.4331
8.4333
34334
3.4336
3.4338
34339
3.4341
34342
34144
45
20
3.4346
3.4347
3.4349
3.4350
3.4352
34354
3.4355
3.4357
3.4358
3.4360
45
30
3.4362
3.4363
3.4365
3.4366
3.4368
3.4370
3.4371
3.4373
34374
3.4376
45
40
3.4378
3.4379
3.4381
3.4382
3.4384
34385
8.4387
3.4389
34390
3.4392
45
50
3.4393
3.4395
3.4396
34398
3.4400
34401
3.4403
3.4404
34406
34408
0 46
0
3.4409
3.4411
8.4412
3.4414
3.4415
3.4417
3.4419
3.4420
3.4422
34423
46
10
3.4425
3.4426
3.4428
3.4429
3.4431
34433
34434
3.4436
3.4437
34439
46
20
3.4440
3.4442
3.4444
3.4445
3.4447
3.4448
3.4450
3.4451
3.4453
34454
46
30
34456
3.4458
3.4459
3.4461
3.4462
3.4464
3.4465
3.4467
3.4468
34470
46
40
3.4472
3.4473
3.4475
3.4476
3.4478
3.4479
3.4481
34482
3.4484
3.4486
46
50
3.4487
3.4489
3.4490
3.4492
3.4493
3.4495
3.4496
3.4498
3.4499
3.4501
0 47
0
3.4502
3.4504
34506
34507
34509
3.4510
34512
34513
3.4515
3.4516
47
10
3.4518
3.4519
34521
34522
34524
34526
34527
3.4529
34530
34532
47
20
3.4533
3.4535
34536
34538
34539
3.4541
34542
34544
3.4545
3.4547
47
30
3.4548
8.4550
34551
3.4553
34555
34556
34558
34559
34561
34562
47
40
3.4564
3.4565
34567
3.4568
3.4570
3.4571
34573
34574
34576
34577
47
50
3.4579
3.4580
34582
34583
34585
34586
34588
3.4589
34591
34592
0 48
0
3.4594
3.4595
84597
34598
34600
34601
34603
84604
34606
34607
48
10
3.4609
3.4610
3.4612
3.4613
34615
3.4616
3.4618
3.4619
34621
34622
48
20
3.4624
3.4625
34627
34628
34630
3.4631
34633
34634
34636
34637
48
30
3.4639
3.4640
3.4642
34643
34645
34646
3.4648
34649
3.4651
34652
48
40
3.4654
3.4655
3.4657
34658
34660
34661
34663
3.4664
34666
34667
48
50
3.4669
34670
8.4672
3.4673
34675
34676
34678
34679
34681
3.4682
0 49
0
3.4683
3.4685
34686
34688
3.4689
3.'4691
34692
34694
34695
34697
49
10
3.4698
3.4700
34701
34703
34704
34706
34707
34709
3.4610
3.4711
49
20
3.4713
3.4714
34716
3.4717
3.4719
34720
34722
3.4723
34725
34726
49
30
8.4728
3.4729
34730
3.4732
34733
34735
34736
34738
34739
3.4741
49
40
3.4742
34744
3.4745
34747
8.4748
34749
34751
3.4752
3.4754
3.4755
49
50
8.4757
3.4758
34760
34761
34763
34764
34765
34767
34768
34770
67
53
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
•
0
i
5
i
4
N
5
d
7
i
9
0^50-M)J
3^771
3.4773
34774
34776
34777
34778
34780
34781
34783
34784
50
10
3^786
3.4787
34789
34790
34791
34793
34794
34796
34797
34799
50
20
3.4800
34802
34808
3.4804
34806
34807
3.4809
34810
34812
34818
50
30
3^814
3.4816
34817
34819
34820
34822
34823
34824
34826
34827
50
40
3.4829
34830
34832
34833
34834
34836
34837
34839
34840
3.4842
60
50
3.4843
34844
34846
34847
34849
34850
34852
34853
34854
34856
0 51
0
3.4857
34859
34860
34861
34863
34864
3.4866
34867
34869
34870
51
10
3.4871
34873
34874
34876
34877
34878
34880
34881
34883
34884
51
20
3^4886
34887
34888
34890
34891
34893
34894
34895
34897
34898
51
30
3^900
34901
34902
34904
34905
34907
34908
34909
34911
34912
51
40
3^914
34915
3.4916
34918
3.4919
34921
34922
34923
34925
34926
51
50
3.4928
34929
34930
34932
34933
34935
34936
34937
34939
34940
0 52
0
3.4943
34943
34944
34946
34947
34949
34950
34951
84953
34954
53
10
3.4955
34957
34958
34960
34961
34962
3.4964
34965
34967
34968
52
20
34969
34971
34972
34973
34975
34976
34978
34979
34980
34982
53
30
3.4983
34984
34986
34987
34989
34990
34991
34993
34994
34996
52
40
34997
34998
3.5000
3.5001
33002
33004
33005
33006
33008
33009
52
50
3.5011
3.5012
3Ji013
33015
33016
33017
33019
33020
33022
33023
0 53
0
3.5024
3.5026
3.5027
33028
3.5030
33031
33032
33034
83035
33037
53
10
3.5038
3.5039
3.5041
33042
33043
33045
33046
33047
33049
83060
53
20
3.5051
3JM)53
3.5054
33056
33057
33058
35060
33061
33062
33064
53
30
3.5065
3.5066
3.5068
3.5069
3.5070
33072
33073
33075
33076
33077
53
40
3.5079
3.5080
3.5081
33083
33084
33085
33087
33088
33089
35091
53
50
3.5092
3.5093
3.5095
33096
33097
33099
33100
33101
33103
3.5104
0 54
0
3.5105
3.5107
3.5108
33109
3.5111
33112
33113
33115
33116
83117
54
10
8.5119
3.5120
3.5122
33123
33124
33126
33127
33128
33130
33131
54
20
3.5132
3.5134
3.5135
33136
33138
33139
33140
33141
3.5143
33144
54
30
3.5145
3.5147
3.5148
33149
33151
33152
83153
33155
33156
33157
54
40
3.5159
3.5160
3.5161
33163
33164
33165
3.5167
33168
33169
33171
54
50
3.5172
3.5173
3.5175
33176
33177
33179
33180
33181
33183
33184
0 55
0
3.5185
3.5186
3.5188
33189
83190
33192
33193
83194
33196
33197
55
10
3.5198
3.5900
3.5201
33902
33204
33205
33206
83207
33209
33210
55
20
3^211
3.5213
3.5214
33215
33217
33218
33219
33221
3.5222
33223
55
30
3.5224
3.5226
3.5227
33228
3.5230
33231
33232
33234
33235
33236
55
40
3^237
3.5239
3.5240
33341
33243
33244
33245
33247
33248
33249
55
50
3.5250
3.5252
3.5253
33254
33256
33257
33258
33260
33261
33262
0 56
0
3.5263
3.5265
3.5266
33267
3.5269
3.5270
332T1
33272
33274
33276
56
10
3.5276
3.5278
3.5279
33280
33281
33283
33284
33285
33287
33288
56
20
3.5289
3.5290
3.5292
3.5293
3.5294
33296
33297
33298
33299
33301
56
30
3.5302
3.5303
3.5305
33306
3.5307
33308
33310
3w5311
33312
33314
56
40
3.5315
3.5316
3.5317
3.5319
33320
33321
33322
33324
33325
33326
56
50
3.5328
3J»29
3J13S0
33331
33333
3.5334
3.5335
33336
33338
33339
0 57
0
3.5340
33342
3.5343
33344
33345
33347
33348
33349
33350
33362
57
10
3.5353
3.5354
3.5355
33357
33358
33359
3.5361
33362
33363
33364
57
20
3.5366
3.5367
3.5368
3.5369
3.5371
33372
3.^373
33374
33376
33377
57
30
3.5378
3.5379
3.5381
3.5382
33383
33384
33386
33387
33388
33390 1
57
40
3.5391
3.5392
3.5393
33395
83396
3.5397
33398
33400
33401
33402
57
50
3.5403
3.5405
3.5406
33407
33408
33410
33411
3.5412
33413
33416
0 58
0
3.5416
3.5417
3.5418
3342D
83421
33422
33423
33425
33426
33427
58
10
3.5428
3.5429
3M31
33432
33433
33434
35436
33437
33438
33439
58
20
3.5441
3.5442
3.5443
33444
3.5446
33447
3.5448
33449
3.5451
33452
58
30
3.5453
3.5454
3.5456
33457
83458
33459
33460
33463
33463
33464
58
40
3.5465
3.5467
3.5468
33469
33470
33472
33473
3.5474
33475
33477
58
50
3.5478
3.5479
8.5480
33481
33483
3.5484
33485
3 5486
33488
33489
0 59
0
3^90
3^91
3.5492
83494
83495
83496
33497
33499
33600
33501
59
10
3.5502
3.5504
33505
33506
33507
83508
33510
33511
33512
33613
59
20
3.5514
3.5516
3.5517
33518
33519
3.5521
33529
3.5523
33524
33515
59
30
3.5527
3.5528
33529
a5530
33532
33533
33534
3.5535
33536
33538
59
40
3.5539
3.5540
33541
33542
33544
33545
33546
33547
33649
, 33560 ,
59
50
3.5551
3.5552
33553
33555
33666
83557
33558
^1
33561
' 33662 !
54
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
d
i
i
3
i
6
6
7
8
9
fh. o«. Q*.
3.5563
3,5564
3.5565
3.5567
3,5568
3.5569
3.5570
3 5571
3.5573
3.5574
0
10
a5575
3,5576
3.5577
3.5579
3.5580
3.5581
3.5582
3.5583
3.5585
3.5586
0
20
a5587
3,5588
3J5589
3.5591
3.5592
8.5593
3.5594
3.5595
8.5597
3,5598
0
30
3^599
3,5600
3.5601
3.5603
3,5604
3i^605
3.5606
3.5607
3.5609
3.5610
.^_
n.
-ML
3,5611
3.5612
_y613
3.5615
3.5626
8,5616
3.5628
3.5617
3.5629
3.5618
3.5630
3.5619
3.5631
3.5621
3.5632
3.5622
3.5634
0
50
-7^^625
'^mt
"T5625
1 1
0
3J»635
3.5636
3.5637
3,5638
3.5640
3.5641
3.5642
3.5643
3.5644
3 5645
1
10
3,5647
8.5648
8,5649
8.5650
3.5651
8.5653
3.5654
3ii655
3.5656
3.5657
1
20
3w5658
3,5660
8.5661
3.5662
3.5663
3.5664
3.5666
3.5667
3.5668
3i^669
1
30
3.5670
33671
3.5673
3.5674
3,5675
8.5676
3.5677
8.5678
3.5680
3.5681
1
40
3,5682
3,5683
8.5684
3.5686
3.5687
3.5688
3.5689
3.5690
3.5691
3.5693
1
50
3.5694
3.5695
3.5696
3 5697
3.5698
3.5700
3.5701
3.5702
3.5703
3.5704
1 2
0
8,5705
3.5707
3J(708
3.5709
3,5710
8.5711
8.5712
3.5714
8.5715
3.5716
2
10
3ii717
8.5718
3.5719
3.5721
3.5722
8.5723
8.5724
3.5725
3.5726
3 5728
2
20
8,5729
3,5730
3.5731
8.5732
3.5733
3.5735
3.5736
3.5737
3.5738
3.5739
2
30
3,5740
8.5741
8.5742
8.5744
3,5745
8.5746
3.5747
3.5748
3.5750
3,5751
2
40
3.5752
8,5753
3.5754
3.5755
3,5756
3.5758
3,5759
3.5760
3.5761
3.5762
2
50
8.5763
3.5765
3.5766
8.5767
3,5768
3.5769
3.5770
3.5771
8.5773
3.5774
I 3
0
8.5775
3,5776
3.5777
3.5778
3.5780
8.5781
3.5782
3 5783
3.5784
3.5785
3
10
3ii786
3.5788
3.5789
3.5790
3 5791
8.5792
3.5793
3.5794
3.5796
3,5797
3
20
3.5798
3.5799
3.5800
3.5801
3.5802
8.5804
8.5805
3.5806
3.5807
3,5808
30
8.5809
8.5810
3.5812
3.5813
3,5814
3.5815
3.5816
3.5817
3.5818
3.5819
40
3i^821
3.5822
3.5823
3.5824
8.5825
3.5826
3.5827
3.5829
3.5830
3.5831
50
8.5832
3,5838
3,5834
3.5835
8.5837
3.5838
3.5839
3.5840
3.5841
3J^842
i 4
0
3.5843
3.5844
3.5846
8.5847
3.5848
3.5849
3.5850
3.5851
3.5852
3.5853
10
3.5855
3.5856
3.5857
3.5858
3.5859
3.5860
3.5861
3.5862
3.5864
3.5865
20
3.5866
3.5867
8.5868
8.5869
3.5870
8.5871
3,5873
3.5874
3.5875
3.5876
30
3.5877
8,5878
3.5879
8.5880
3.5882
3.5883
3.5884
3.5885
3.5886
3.5887
40
8.5888
8.5889
3.5891
8.5892
3.5893
3 5894
3.5895
3.5896
8.5897
3.5898
50
3.5899
3.5901
8.5982
3.5903
3.5904
3.5905
3.5906
3.5907
3.5908
3.5910
1 5
0
3.5911
3.5912
8.5913
3.5914
3.5915
3.5916
3.5917
3.5918
3.5920
3,5921
10
3.5922
3.5923
3.5924
8.5925
3.5926
3ii927
3i^928
8.5930
3.5931
3.5932
20
3.5838
8.5934
3,5935
3.5936
3,5987
8.5938
3.5940
3.5941
3.5942
3.5943
30
3.5944
3.5945
3.5946
3.5947
3,5948
3.5949
8.5951
3.5952
3.5953
3.5954
40
8,5955
3,5956
3.5957
3.5958
3,5959
3,5960
8.5962
3.5963
3.5964
3.5965
50
3.5966
3,5967
3.5968
3.5969
3.5970
8.5971
3.5973
3.5974
3J»975
3.5976
1 6
0
8.5977
8.5978
3.5979
3.5980
8.5981
3J1982
3.5984
8.5985
3.5986
3.5987
10
3.5988
3.5989
3.5990
3.5991
3.5992
3.5993
3.5994
3.5996
3.5997
8.5998
20
3.5999
3.6000
8.6001
3.6002
3.6003
8.6004
3.6005
3.6006
3.6008
3.6009
80
8.6010
3.6011
8.6012
8.6013
8.6014
3.6015
3.6016
3.6017
3.6018
3.6020
40
3.6021
3.6022
3.6028
3.6024
3.6025
8.6026
8.6027
3.6028
3.6029
3.6030
50
3.6031
3.6033
3.6034
3.6035
3.6036
3.6037
3.6038
3.6039
3.6040
3.6041
I 7
0
3.6042
3.6043
3.6044
8.6046
3.6047
3.6048
3.6049
3.6050
3.6051
3.6052
10
3.6053
3.6054
8.6055
3.6056
3.6057
3.6058
3.6060
8.6061
3.6062
3.6063
20
8.6064
3.6065
3.6066
8.6067
3.6068
8.6069
3.6070
8.6071
8.6072
3.6073
30
3.6075
3.6076
3.6077
3.6078
3.6079
8.6080
3.6081
3.6082
3.6083
3.6084
40
3.6085
3.6086
3.6087
3.6088
3,6090
3.6091
3.6092
3.6093
3.6094
3.6095
50
3.6096
3.6097
3.6098
3.6099
3.6100
8.6101
3.6102
3.6103
3.6104
3.6106
1 8
0
3.6107
3.6108
3.6109
3.6U0
3.6111
3.6112
3.6113
3.6114
3.6115
8.6116
10
3.6117
3.6118
3.6119
3.6120
3.6121
3.6123
8.6124
3.6125
3.6126
3.6127
20
3.6128
3.6129
3.6130
3.6181
8.6132
3.6133
3.6134
3.6135
3.6136
3.6137
30
3.6138
3.6139
3.6141
3.6142
3.6148
3.6144
3.6145
3.6146
3.6147
3.6148
40
3.6149
3.6150
3.6151
3.6152
8.6153
3.6154
3.6155
3.6156
3.6157
3.6158
50
3.6160
3.6161
3.6162
3.6163
3.6164
3.6165
3.6166
3.6167
3.6168
3.6169
1 9
0
3.6170
3.6171
3.6172
8.6173
8.6174
3.6175
3.6176
3.6177
3.6178
3.6179
10
3.6180
3.6182
3.6183
3.6184
3.6185
3.6186
3.6187
3.6188
8.6189
3.6190
20
3.6191
3.6192
3.6193
3.6194
3.6195
3.6196
3.6197
3.6198
3.6199
8.6200
30
3.6201
3.6202
3.6203
3.6204
3.6206
3.6207
3.6208
3.6209
3.6210
3.6211
40
3.6212
3.6213
3.6214
3.6215
3.6216
3.6217
3 6218
3.6219
3.6220
3.6221
50
8.6222
3.6223
3.6224
3,6225
3.6226
a6227
3.6228
3.6229
3.6230
3.6231
55
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
d
1
5
3
4
5
^
i
i
9
\^i^M
3.6S3S
3.6834
3.6S35
3.6S36
3.6S87
3.6S38
3.6239
3.6840
3.6841
3.6948
10
10
3.6S43
3.6S44
3.6S45
3.6S46
3.6247
3.6848
3.6249
3.6850
3.6851
3.6858
10
so
3.6S53
3.6S54
3.6S55
3.6S56
3.6257
3.6858
3.6259
36860
3.6861
3.6868
10
30
3.6S63
3.6S64
3.6S65
3.6S66
3.6268
3.6269
3.6270
3.6871
3.6278
3.6873
10
40
3.6S74
3.6S75
3.6S76
3.6S77
3.6278
3.6279
3.6280
3.6881
3.6888
3.6883
10
50
3.6S84
3.6S85
3.6S86
3.6S87
3.6288
3.6289
3.6290
3.6891
3.6898
3.6893
1 11
0
3.6S94
3.6S95
3.6S96
3.6S97
3.6S98
3.6S99
3.6300
3.6301
3.6303
3.6303
11
10
3.6304
3.6305
3.6806
3.6307
3.6308
3.6309
3.6310
3.6811
36318
3.6313
11
SO
3.6314
3.6315
3.6316
3.6317
3.6318
3.6320
3.6321
3.6388
3.6383
3.6384
11
30
3.63S5
3.63S6
3.63S7
3.63S8
3.6329
3.6330
3.6331
3.6333
3.6333
3.6334
11
40
3.6335
3.6336
3.6337
3.6338
3.6339
3.6340
3.6341
3.6348
3.6343
3.6344 ;
11
50
3.6345
3.6346
3.6347
3.6348
3.6349
3.6350
3.6351
3.6358
3.6353
3.6354
1 19
0
3.6355
3.6356
3.6357
3.6358
3.6359
3.6360
3.6361
3.6368
3.6363
3.6364
IS
10
3.6365
3.6366
• 3.6367
3.6368
3.6369
3.6370
3.6371
3.637S
3.6373
3.6374
U
SO
3.6375
3.6376
3.6377
3.6378
3.6379
3.6380
3.6381
3.6382
3.6383
3.6384
IS
30
3.6385
3.6386
3.6387
8.6388
3.6389
3.6390
3.6391
3.6392
3.6393
3.6394
IS
40
3.6395
3.6396
3.6397
3.6398
3.6399
3.6400
3.6401
3.6402
3.6403
3.6404
IS
50
3.6405
3.6406
3.6407
3.6408
3.6409
3.U10
3.6411
3.6412
3.6413
3.6414
1 13
0
3.6415
3.6416
3.6417
3.6418
3.6419
3.6480
3.6421
3.6422
3.6483
3.6484
13
10
3.64S5
3.64S6
3.64S7
3.64S8
3.64S9
3.6430
3.6431
3.6438
3.6433
3.6434
13
SO
3.6435
3.6436
3.6437
3.6437
3.6438
3.6439
3.6440
3.6441
3.6448
3.6443
13
30
3.6444
3.6445
3.6446
3.6447
3.6448
3.6449
3.6450
3.6451
3.6458
3.6453
13
40
3.6454
3.6455
3.6456
3.6457
3.6458
3.6459
3.6460
3.6461
33468
3.6463
13
50
3.6464
3.6465
3.6466
3.6467
3.6468
3.6469
3.6470
3.6471
3.6478
3.6473
1 14
0
3.6474
3.6475
3.6476
3.6477
3.6478
3.6479
3.6480
3.6481
3.6488
3.6483
14
10
3.6484
3.6485
3.6486
3.6487
3.6488
3.6488
3.6489
3.6490
3.6491
3.6498
14
SO
3.6493
3.6494
3.6495
3.6496
3.6497
3.6498
3.6499
3.6500
3.6501
3.6508
14
30
3.6503
3.6504
3.6505
3.6506
3.6507
3.6508
3.6509
3.6510
3.6511
3.6518
14
40
3.6513
3.6514
3.6515
3.6516
3.6517
3.6518
3.6519
3.6580
3.6581
3.6581
14
50
8.65SS
3.65S3
3.6534
3.6525
3.65S6
3.6527
3.6528
3.6589
3.6530
3.6531
1 15
0
3.653S
3.6533
3.6534
3.6535
3.6536
3.6537
3.6538
3.6639
3.6540
3.6541
15
10
3.654S
3.6543
3.6544
3.6545
3.6546
3.6547
3.6548
3.6549
3.6549
8.6550
15
SO
3.6551
3.655S
3.6553
3.6554
3.6555
3.6556
3.6557
3.6558
3.6559
3.6560
15
30
3.6561
3.656S
3.6563
3.6564
3.6565
3.6566
3.6567
3.6568
3.6569
3.6570
15
40
3.6571
3.657S
3.657S
3.6573
3.6574
3.6575
3.6576
3.6577
3.6578
3.6579
15
50
3.6580
3.6581
3.658S
3.6583
3.6584
3.6585
3.6586
3.6587
3 6588
1 16
0
3.6590
3.6591
3.659S
3.6593
3.6593
8.6594
3.6595
3.6596
3.6597
3.6598
16
10
3.6599
3.6600
3.6601
3.660S
3.6603
3.6604
3.6605
3.6606
8.6607
3.6606
16
SO
3.6609
3.6610
3.6611
3.6611
3.661S
3.6613
3.6614
3.6615
3.6616
3.6617
16
30
3.6618
3.6619
8.66S0
3.66S1
3.66SS
3.6623
3.6694
3.6685
3.6686
3.6687
16
40
3.66S8
3.66S9
8.66S9
3.6630
3.6631
3.6632
3.6633
3.6634
3.6635
3.6636
16
50
3.6637
3.6638
3.6639
3.6640
3.6641
3.6642
3.6643
8.6644
3.6645
3.6645
1 17
0
3.6646
3.6647
3.6648
3.6649
3.6650
3.6651
3.6658
3.6653
3.6654
3.6655
17
10
3.6656
3.6657
3.6658
3.6659
3.6660
3.6660
3.6661
3.6668
3.6663
3.6664
17
SO
3.6665
3.6666
3.6667
3.6668
3.6669
3.6670
3.6671
3.6678
3.6673
3.6674
17
30
3.6675
36675
3.6676
3.6677
3.6678
3.6679
3.6680
3.6681
3.6688
3.6683 ,
17
40
3.6684
3.6685
36686
3.6687
3.6688
3.6689
3.6689
3.6690
3.6691
3.6698
17
50
3.6693
3.6694
3.6695
8.6696
3.6697
3.6698
3.6699
3.6700
3.6701
3.6708
1 18
0
3.670S
3.6703
3.6704
3.6705
3.6706
3.6707
3.6708
3.6809
3.6710
3.6711 '
18
10
3.671 S
3.6713
3.6714
3.6715
3.6715
3.6716
3.6717
3.6718
3.6719
3.67S0
18
SO
3.67S1
3.67SS
3.67S3
3.67S4
3.67S5
3.6726
3.6787
3.6787
3.6788
3.6789
18
30
3.6730
3.6731
3.678S
3.6733
3.6734
3.6735
3.6736
3.6737
3.6738
3.6738
18
40
3.6739
3.6740
3.6741
3.674S
3.6743
3.6744
3.6745
3.6746
3ii747
3.6748
18
50
3.6749
3.6750
3 6750
3.6751
3.675S
3.6753
3.6754
3.6755
3.6756
3.6757
1 19
0
3.6758
3.6759
3.6760
3.6761
3.6761
3.6762
3.6763
3.6764
3.6765
3.6766
19
10
3.6767
3.6768
3.6769
3.6770
3.6771
3.6772
3.6778
3A773
3.6774
3.6775
19
SO
3.6776
3.6777
3.6778
3.6779
3.6780
3.6781
3.6788
3.6788
3.6783
3.6784
19
30
3.6785
3.6786
36787
3.6788
3.6789
3.6790
3.6791
3.6798
8.6798
3.6798
19
40
3.6794
3.6795
3 6796
3.6797
3.6796
3.6799
3.6800
3.6801
3.6808
3.6808
19
50
3.6803
3.6804
3.6805
3.6806
3.6807
3.6808
3.6809
3.6810
8.6811
3.6818
56
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME. |
Arc
d
M
1
5
i
4
»
6
N
6
7
^
9
3.6812
3.6813
3.6814
3.6815
3.6816
8.6817
3.6818
ai(8i9
3.6820
3.6821
20 10
3.6821
3.6822
3.6823
3.6824
3.6825
3.6826
8.6827
3.6828
8.6829
3.6830
20 20
3.6830
3.6831
3.6832 8.68331
3.6834
3.6835
3.6836
8.6837
8.6838
3.6839
20 30
3.6839
3.6840
3.6841
3.6842
3.6843
3.6844
3.6845
3.6846
8.6847
3.6848
20 40
3.6848
3.6849
3.6850
3.6851
3.6852
8.6853
3.6854
8.6855
3.6856
3.6857
20 50
3.6857
3.6858
3.6859
3.6860
3.6861
3.6862
3.6863
3.6864
3.6865
3.6865
1 21 0
3.6866
3.6867
3.6868
3.6869
3.6870
3.6871
8.6872
8.6873
8.6874
3.6874
21 10
3.6875
3.6876
3.6877
3.6878
3.6879
3.6880
8.6881
3.6882
3.6882
3.6883
21 20
3.6884
3.6885
3.6886
3.6887
3.6888
3.6889
3.6890
3.6890
8.6891
3.6892
21 30
3.6893
3.6894
3.6895
3.6896
3.6897
3.6898
3.6898
3.6899
3.6900
3.6901
21 40
3.6902
3.6903
3.6904
3.6905
3.6906
3.6906
8.6907
3.6908
3.6909
3.6910
21 50
3.6911
3.6912
3.6913
3.6913
3.6914
3.6915
8.6916
3.6917
8.6918
3.6919
1 22 0
3.6920
3.6921
3.6921
3.6922
3.6923
3.6924
3.6925
3.6926
8.6927
3.6928
22 10
3.6928
3.6929
3.6930
3.6931
3.6932
3.6933
3.6934
8.6935
3.6936
3.6936
22 20
3.6937
3.6938
3.6939
3.6940
3.6941
3.6942
3.6943
3.6943
8.6944
3.6945
22 30
3.6946
3.3947
3.6948
3.6949
3.6950
3.6950
8.6951
8.6952
8.6953
3.6954
22 40
3.6955
3.6956
3.6957
8.6957
3.6958
3.6959
3.6960
8.6961
3.6962
3.6963
22 50
3.6964
3.6964
3.6965
3.6966
3.6967
3.6968
8.6969
3.6970
8.6971
3.6971
1 23 0
3.6972
3.6973
3.6974
8.6975
3.6976
3.6977
8.6978
3.6978
8.6979
8.6980
23 10
3.6981
3.6982
3.6983
3.6984
3.6984
3.6985
8.6986
3.6987
8.6988
3.6989
23 20
3.6990
3.6991
3.6991
3.6992
3.6993
3.6994
3.6995
3.6996
8.6997
3.6998
23 30
3.6998
3.6999
3.7000
8.7001
3.7002
3.7003
3.7004
3.7004
8.7005
3.7006
23 40
3.7007
3.7008
3.7009
3.7010
3.7010
3.7011
3.7012
3.7013
8.7014
3.7015
23 50
3.7016
3.7017
3.7017
3.7018
3.7019
3.7020
8.7021
3.7022
3.7023
3.7023
1 24 0
3.7024
3.7025
3.7026
3.7027
3.7028
3.7029
8.7029
3.7030
8.7081
3.7082
24 10
3.7033
3.7034
3.7035
3.7035
3.7036
3.7037
8.7038
3.7039
8.7040
3.7041
24 20
3.7042
3.7042
3.7043
3.7044
3.7045
3.7046
3.7047
3.7048
3.7048
3.7049
24 30
3.7050
3.7051
3.7052
3.7053
3.7054.
3.7054
8.7055
8.7056
3.7057
3.7058
24 40
3.7059
3.7060
3.7060
3.7061
3.7062
3.7063
8.7064
3.7065
3.7065
3.7066
24 50
3.7067
3.7068
3.7069
3.7070
3.7071
3.7071
3.7072
3.7073
3.7074
3.7075
1 25 0
3.7076
3.7077
3.7077
3.7078
3.7079
3.7080
3.7081
3.7082
3.7083
8.7083
25 10
3.7084
3.7085
3.7086
3.7087
3.7088
3.7088
3.7089
3.7090
3.7091
3.7092
25 20
3.7093
3.7094
3.7094
3.7095
3.7096
3.7097
3.7098
3.7099
3.7099
3.7100
25 30
3.7101
3.7102
3.7103
3.7104
3.7105
3.7105
3.7106
3.7107
3.7108
3.7109
25 40
3.7110
3.7110
3.7111
3.7112
3.7113
3.7114
3.7115
3.7116
3.7116
8.7117
25 50
3.7118
3.7119
3.7120
3.7121
3.7121
3.7122
3.7123
3.7124
3J125
3.7126
1 26 0
3.7126
3.7127
3.7128
3.7129
3.7130
3.7131
3.7132
3.7132
3.7183
3.7134
26 10
3.7135
3.7136
3.7137
3.7137
3.7138
3.7139
3.7140
3.7141
3.7142
3.7142
26 20
3.7143
3.7144 3.7145
3.7146
3.7147
3.7147
3.7148
3.7149
3.7150
3.7151
26 SO
3.7152
3.7153 3.7153
3.7154
3.7155
3.7156
3.7157
3.7158
3.7159
3.7159
26 40
3.7160
3.7161 3.7162
3.7163
3.7163
3.7164
3.7165
3.7166
3.7167, 3.7168 ||
26 50
3.7168
3.7169 3.7170
3.7171
3.7172
3.7173
3.7173
3.7174
3.7175
3.7176
1 27 0
3.7177
3.7178 3.7178
3.7179
3.7180
3.7181
3.7182
3.7183
3.7183
3.7184
27 10
3.7185
3.7186 3.7187
3.7188
3.7188
3.7189
3.7190
3.7191 3.7192i 3.7192 ||
27 20
3.7193
3.7194 3.7195
3.7196
3.7197
3.7197
3 7198
3.7199
3.7200, 3.7201
27 30
3.7202
3.7202 3.7203
3.7204
3.7205
3.7206
3.7207
3.7207
3.7208 8.7209
27 40
3.7210
3.721 li 3.7212
3.7212
3.7213
3.7214
3.7215
3.7216
3.7216, 3.7217
27 50
3.7218
3.7219 3.7220
3.7221
3.7221
3.7222
3.7223
3.7224
3.7225. 3.7226
1 28 0
3.7226
3.7227 3.7228
3.7229
3.7230
3.7230
3.7231
3.7232
3.7233 3.7234
28 10
8.7235
3.7235. 3.7236
3.7237
3.7238
3.7239
3 7239
3.7240
3.72411 3.7242
28 20
3.7243
3.7244
8.7244
3.7245
3.7246
3.7247
3.7248
3.7248
3.7249
3.7250
28 30
3.7251
3.7252
3.7253
3.7253
3.7254
3.7255
3.7256
3.7257
3.7257
3.7258
28 40
3.7259
3.7260
3.7261
3.7262
3.7262
3.7263
3.7264
3.7265
3.7266
3.7266
28 50
3.7267
3.7268
3.7269
3.7270
3.7271
3.7271
3.7272
3 7273
3.7274
3.7275
1 29 0
3.7275
3.7276
3.7277
3.7278
3.7279
3.7279
3.7280
3.7281
3.7282
8.7288
29 10
3.7284
3.7284
3.7285
3.7286
3.7287
3.7288
3.7288
3.7289
3.7290
3.7291
29 20
8.7292
3.7292
3.7293
3.7294
3.7295
3.7296
3.7297
3.7297
8.7298
3.7299
29 30
3.7300
3,7301
3.7301
3.7302
3.7303
3.7304
3.7305
3.7305
3.7306
3.7307
29 40
3.7308
3.7309
3.7309
3.7310
3.7311
3.7312
3.7313
3.7313
3.7814
3.7315
29 50
3.7316
3.7317
8.7317
3.7318
3.7319
3.7320
3.7321
3.7322
3.7322 > 3.7323 ||
57
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Aic
d
i
i
i
4
N
5
^
7
8
9
ffc.8(i-&.
8.7324
3.7325
3.7326
8.7326
3.7827
3.7328
3.7329
3.7330
3.7330
3.7331
30 10
3.7332
3.7333
3.7334
3.7334
3.7335
3.7336
3.7337
3.7338
3.7338
3.7339
30 20
3.7340
3.7341
3.7342
3.7342
3.7343
3.7344
3.7345
3.7346
3.7346
3.7347
30 30
3.7348
3.7349
3.7350
3.7350
3.7351
3.7352
3.73.'i3
3.7354
3.7354
3.7355
30 40
3.7356
3.7357
3.7358
3.7358
3.7359
3.7360
3.7361
3.7362
3.7362
a7363
30 60
3.7364
3.7365
3.7366
3.7366
3.7367
8.7368
3.7369
3.7870
3.7370
3.7371
1 31 0
8.7372
3.7373
3.7374
3.7374
3.7375
8.7876
3.7377
3.7377
3.7378
3.7379 1
31 10
3.7380
3.7381
3.7381
3.7382
3.7383
3.7384
3.7385
3.7385
3.7386
3.7387 ;
31 20
3.7388
3.7389
3.7389
3.7390
3.7391
3.7392
3.7393
8.7393
3.7394
3.7395
31 30
3.7396
3.7397
3.7397
3.7398
3.7399
3.7400
3.7400
3.7401
3.7402
3.7403
31 40
3.7404
3.7404
3.7405
3.7406
3.7407
3.7408
3.7408
3.7409
3.7410
3.7411
81 60
3.7412
3.7412
3.7413
3.7414
3.7415
3.7415
3.7416
3.7417
3.7418
3.7419
1 32 0
3.7419
3.7420
3.7421
3.7422
3.7423
3.7423
3.7424
3.7425
3.7426
3.7426
32 10
3.7427
3.7428
3.7429
3.7430
3.7430
8.7431
3.7432
3.7433
3.7484
3.7434
32 20
8.7435
3.7436
3.7437
3.7437
3.7438
3.7439
3.7440
3.7441
3.7441
3.7442
32 30
3.7443
3.7444
3.7444
3.7445
3.7446
3.7447
3.7446
3.7448
3.7449
3.7450
32 40
3.7451
3.7452
3.7452
3.7453
3.7454
3.7455
3.7455
3.7456
3.7457
3.7458
32 50
8.7459
3.7459
3.7460
3.7461
3.7462
3.7462
8.7463
3.7464
3.7465
3.7466
1 33 0
3.7466
3.7467
3.7468
3.7469
3.7469
3.7470
8.7471
3.7472
3.7473
3.7473
33 10
3.7474
3.7475
3.7476
3.7476
3.7477
3.7478
3.7479
3.7480
3.7480
3.7481
33 20
3.7482
3.7488
3.7483
3.7484
3.7485
3.7486
3.7487
3.7487
3.7488
3.7489
33 30
3.7490
3.7490
3.7491
8.7492
3.7493
3.7493
3.7494
3.7495
3.7496
3.7497
33 40
3.7497
3.7498
3.7499
8.7500
3.7500
3.7501
3.7502
3.7503
3.7504
3.7504
33 60
3.7505
3.7506
3.7507
3.7507
3.7508
3.7509
3.7510
3.7510
3.7511
3.7512 I
1 84 0
3.7513
3.7514
3.7514
3.7515
3.7516
3.7517
3.7517
3.7518
3.7519
3.7520 '
84 10
3.7520
3.7521
3.7522
3.7523
3.7524
3.7524
3.7525
3.7526
3.7527
3.7527
84 20
3.7528
3.7529
3.7530
3.7530
3.7531
3.7532
3.7533
3.7534
3.7584
3.7535
84 30
8.7536
3.7537
8.7537
3.7538
3.7539
3.7540
8.7540
3.7541
3.7542
3.7543 1
84 40
3.7543
3.7544
3.7545
3.7546
3.7547
3.7547
3.7548
3.7549
3,7550
3.7550
84 60
3.7551
8.7552
3.7553
3.7553
3.7554
3.7555
3.7556
3.7556
3.7557
3.7558
1 35 0
3.7559
3.7560
3.7560
8.7561
3.7562
3.7563
3.7563
3.7564
3.7565
3.7566
35 10
3.7566
3.7567
3.7568
8.7669
3.7569
3.7570
3.7571
3.7572
3.7572
3.7578 1
35 20
8.7574
8.7575
3.7575
3.7576
3.7577
3.7578
3.7579
3.7579
3.7580
3.7581 il
35 30
8.7582
3.7582
3.7583
3.7584
3.7585
3.7585
3.7586
3.7587
3.7588
3.7588 !
85 40
3.7589
3.7590
3.7591
3.7591
3.7592
3.7593
3.7594
37594
3.7595
3.7596 1
35 50
8.7597
3.7597
3.7598
3.7599
3.7600
3.7600
3.7601
3.7602
3.7603
3.7603 {
1 86 0
3.7604
3.7605
3.7606
3.7606
3.7607
3.7608
3.7609
3.7609
3.7610
8.7611
86 10
8.7612
3.7613
3.7613
8.7614
3.7615
3.7616
3.7616
3.7617
3.7618
3.7619
86 20
3.7619
3.7620
3.7621
3.7622
3.7622
3.7623
3.7624
3.7625
3.7625
3.7626
86 80
3.7627
3.7628
3.7628
3.7629
3.7630
3.7631
3.7631
3.7632
3.7633
3.7634
86 40
3.7634
3.7635
3.7636
3.7637
3.7637
3.7638
3.7639
3.7640
3.7640
3.7641
86 50
8.7642
3.7643
3.7643
3.7644
3.7645
8.7645
3.7646
3.7647
3.7648
3.7648
1 37 0
3.7649
3.7650
3.7651
8.7651
3.7652
3.7653
3.7654
3.7654
3.7655
3.7656
87 10
3.7657
3,7657
3.7658
3.7659
3.7660
3.7660
3.7661
3.7662
3.7663
3.7663 1
37 20
3.7664
3.7665
3.7666
3.7666
3.7667
3.7668
3.7669
3.7669
3.7670
3.7671
87 30
3.7672
3.7672
3.7673
3.7674
3.7675
3.7675
3.7676
3.7677
3.7677
3.7678 .
87 40
8.7679
3.7680
3.7681
3.7681
3.7682
3.7683
3.7683
3.7684
3.7685
3.7686
87 60
3.7686
3.7687
3.7688
3.7689
3.7689
3.7690
3.7691
3.7692
3.7692
8.7693
1 38 0
3.7694
8.7695
3.7695
3.7696
3.7697
3.7697
3.7698
3.7699
3.7700
3.7700
38 10
3.7701
3.7702
3.7703
3.7703
3.7704
3.7705
3.7706
3.7706
3.7707
3.7708 I
38 20
3.7709
8.7709
3.7710
3.7711
3.7711
3.7712
3.7713
3.7714
3.7714
3.7715
38 30
3.7716
3.7717
3.7717
3.7718
3.7719
3.7720
3.7720
3.7721
3.7722
3.7722
88 40
8.7723
3.7724
3.7725
3.7725
3.7726
3.7727
3.7728
3.7728
3,7729
3.7730
38 50
8.7731
3.7731
8.7732
8.7733
8.7733
3.7734
3.7735
3.7736
3.7736
3.7737
1 39 0
8.7738
3.7739
3.7739
3.7740
8.7741
3.7742
3,7742
3.7743
3.7744
3.7744
39 10
8.7745,
8.7746
8.7747
8.7747
3.7748
3.7749
3.7750
3.7750
3.7751
3.7752
89 20
3.7752'
3.7753
3.7754
8.7755
3.7755
3.7756
3.7757
3.7758
3.7758
3.7759
39 80
8.7760:
8.7760
3.7761
3.7762
3.7763
3.7763
3.7764
3.7765
3.7766
3.7766
89 40
3.77671
3.7768
3.7768
8.7769
3.7770
3.7771
3.7771
3.7772
3,7773
3.7774
39 50
3.7774'
3.7775
3.7776
3.7776
3.7777
8.7778
3.7779
3.7779
3.7780
3.7781
J
58
TABLE IX.
(— — i
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
1
0
M
1
i
3
i
5
d
7
8'
9
fb. Q'm. o>.
3.7782
3.7782
3.7783
3.7784
3.7784
3.7785
3.7786
3.7787
3.7787
3.7788
1 *o
10
3.7789
3.7789
3.7790
3.7791
3.7792
3.7792
3.7793
3.7794
8.7795
3.7795
40
20
3.7796
3.7797
8.7797
3.7798
3.7799
3.7800
3.7800
3.7801
3.7802
3.7802
40
30
3.7803
3.7804
3.7805
3.7805
3.7806
3.7807
3.7807
3.7808
3.7809
3.7810
40
40
3.7810
3.7811
3.7812
3.7813
8.7813
3.7814
3.7815
3.7815
3.7816
3.7817
40
60
3.7818
3.7818
3.7819
3.7820
3.7820
3.7821
3.7822
3.7823
3.7823
3.7824
1 41
0
3.7825
3.7825
3.7826
3.7827
3.7828
3.7828
3.7829
3.7830
3.7830
3 7831
41
10
3.7832
3.7833
3.7833
3.7834
3.7835
3.7835
3.7836
3.7837
3.7838
3.7838
41
20
3.7839
3.7840
3.7840
3.7841
3.7842
3.7843
3.7843
3.7844
3.7845
3.7845
41
30
3.7846
3.7847
3.7848
3.7848
3.7849
3.7850
3.7850
3.7851
3.7852
3.7853
41
40
3.7853
3.7854
3.7855
3.7855
3.7856
3.7857
3.7858
3.7858
3.7859
3.7860
41
50
3.7860
3.7861
3.7862
3 7863
3.7863
3.7864
3.7865
3.7865
3.7866
3.7867
1 42
0
3.7868
8.7868
3.7869
3.7870
3.7870
3.7871
3.7872
3.7872
3.7873
3.7874
42
10
3.7875
3.7875
3.7876
3.7877
3.7877
3.7878
3.7879
3.7880
3.7880
3.7881
42
20
3.7882
3.7882
3.7883
3.7884
3.7885
3.7885
3.7886
3.7887
3.7887
3.7888
42
30
3.7889
3.7889
3.7890
3.7891
3.7892
3.7892
3.7893
3.7894
3.7894
3.7895
42
40
3.7896
3.7897
3.7897
3.7898
3.7899
3.7899
3.7900
3.7901
3.7901
3.7902
42
50
3.7903
3.7904
3.7904
3.7905
3.7906
3.7906
3.7907
3.7908
3.7908
3.7909
1 43
0
3.7910
3.7911
3.7911
3.7912
3.7913
3.7913
8.7914
37915
3.7916
3.7916
43
10
3.7917
3.7918
3.7918
3.7919
3.7920
3.7920
3.7921
3.7922
3.7923
3.7923
43
20
3.7924
3.7925
3.7925
3.7926
8.7927
3.7927
3.7928
3.7929
3.7930
3.7930
43
30
3.7931
3.7932
3.7932
3.7933
3.7934
3.7934
3.7935
3.7936
a7937
3.7937
43
40
3.7938
3.7939
3.7939
3.7940
3.7941
3.7941
3.7942
3.7943
3.7943
3.7944
43
50
3.7945
3.7946
3.7946
3.7947
3.7948
3.7948
3.7949
3.7950
3.7950
3.7951
1 44
0
3.7952
3.7953
3.7953
3.7954
3.7955
3.7955
3.7956
3.7957
3.7957
3.7958
44
10
3.7959
3.7959
3.7960
3.7961
3.7962
3.7962
3.7963
3.7964
3.7964
3.7965
44
20
3.7966
3.7966
3.7967
3.7968
3.7969
3.7969
3.7970
3.7971
3.7971
3.7972
44
30
3.7973
3.7973
3.7974
3.7975
3.7975
3.7976
3.7977
3.7978
3.7978
3.7979
44
40
3.7980
3.7980
3.7981
3.7982
3.7982
37983
3.7984
3.7984
3.7985
3.7986
44
50
3.7987
3.7987
3.7988
3.7989
3.7989
3.7990
3.7991
3.7991
3.7992
3.7993
I 45
0
3.7993
3.7994
3.7995
3.7995
3.7996
3.7997
3.7998
3.7998
3.7999
3.8000
45
10
3.8000
3.8001
3.8002
3.8002
3.8003
3.8004
3.8004
3.8005
3.8006
3.8006
45
20
3.8007
3.8008
3.8009
3.8009
3.8010
3.8011
3.8011
3.8012
3.8013
3.8013
45
30
3.8014
3.8015
3.8015
3.8016
3.8017
3.8017
3.8018
3.8019
3.8020
3.8020
45
40
3.8021
3.8022
3.8022
3J023
3.8024
3.8024
3.8025
3.8026
3.8026
3.8027
45
50
8.8028
3.8028
3.8029
3.8030
3.8030
3.8031
3.8032
3.8033
3.8033
3.8034
1 46
0
3.8035
3.8035
3.8036
3.8036
3.8037
3.8038
3.8039
3J039
3.8040
3J041
46
10
3.8041
3.8042
3.8043
3.8043
3.8044
3.8045
3.8045
3.8046
3.8047
3.8048
46
20
3.8048
3.8049
3.8050
3.8050
3.8051
3.8052
3.8052
3.8053
3.8054
3.8054
46
30
3.8055
3.8056
3.8056
3.8057
3.8058
3.8058
3.8059
3.8060
3.8060
3.8061
46
40
3.8062
3.8062
3.8063
3.8064
3.8065
3.8065
3.8066
3.8067
3.8067
3.8068
46
50
3.8069
3.8069
3.8070
3.8071
3.8071
3.8072
3.8073
3.8073
3.8074
3.8075
1 47
0
3.8075
3.8076
3.8077
3.8077
3.8078
3.8079
3.8079
3.8080
3.8081
3.8081
47
10
3.8082
3.8083
3.8083
3.8084
3.8085
3.8085
3.8086
3.8087
3.8088
3.8088
47
20
3.8089
3.8090
3.8090
3.8091
3.8092
3.8092
3.8093
3.8094
3.8094
3.8095 ,
47
30
3.8096
3.8096
3.8097
3.8098
3.8098
3.8099
3.8099
3.8100
3.8101
3.8102
47
40
3.8102
3.8103
3.8104
3.8104
3.8105
3.8106
3.8106
3.8107
3.8108
3.8108
47
50
3.8109
3.8110
3.8110
3.8111
3.8112
3.8112
3.8113
3.8114
3.8114
3.8115
1 48
0
3.8116
3.8116
3.8117
3.8118
3.8118
3.8119
3.8120
3.8120
3.8121
3.8122
48
10
3.8122
3iil23
3.8124
3.8124
3.8125
3.8126
3.8126
3.8127
3.8128
3.8128
48
20
3.8129
3.8130
3.8130
3.8131
3.8132
3.8132
3.8133
3.8134
3.8134
3.8135
48
30
3.8136
3.8136
3.8137
3.8138
3.8138
3.8139
3.8140
3.8140
3.8141
3.8142
48
40
3.8142
3.8143
3.8144
3.8144
3.8145
3.8146
3.8146
3.8147
3.8148
3.8148
48
50
3.8149
3.8150
3.8150
3.8151
3.8152
3.8152
a8153
3.8154
3.8154
3.8155
1 49
0
3.8156
3.8156
3.8157
8.8158
3.8158
3.8159
3.8160
3.8160
3.8161
3.8162
49
10
3.8162
3.8163
3.8164
3.8164
3.8165
3.8166
3.8166
3.8167
3.8168
3.8168
49
20
8.8169
3.8170
3.8170
3.8171
8.8172
3.8172
3.8173
3.8174
3.8174
3.8175
49
30
3.8176
3.8176
3.8177
3.8178
3.8178
3.8179
3.8180
3.8180
3.8181
3.8182
49
40
3.8182
3.8183
3.8184
3.8184
3.8185
3.8185
3.8186
3.8187
3.8188
3.8188
49
50
3.8189
3.8190
3.8190
8.8191
3.8191
3.8192
3.8193
3.8193
3.8194
3.8195
59
TABLE IX.
^ —
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Afc
d
i
5
3
i
5
^
7
^
9
^5<}-.d
3.8196
3.8196
8J197
3.8197
3.8198
3.8199
8J199
3J800
8.8801
3.8901
50
to
3.8808
3.8803
3.8803
3.8804
3.8805
3J805
3J806
3.8307
3.8307
3.8808
50
80
3.8809
3.8809
3J810
3J811
8.8811
3.8818
3.8913
3.8313
3.8314
3.8814
50
30
3.8815
3.8816
3.8316
3.8817
3.8818
3.8818
3.8819
3.8880
3.8880
3.8881
50
40
3.8888
3.8888
3.8883
8.8834
3.8384
3.8885
3J)986
3.8886
3.8887
3.8388
50
50
3.8888
3.8839
3.8830
3.8330
8.8831
3.8831
3.8838
3.8833
3.8833
3.8834
1 51
0
3.8935
3.8835
3.8836
8.8837
3.8837
3.8838
3.8839
3.8839
38840
3.8841
51
10
8.8841
3.8843
3.8343
3.8843
3.8844
3.8345
3.8845
3.8846
3.8846
3.8847
51
80
3.8848
3.8848
3.8849
3.8350
3.8850
8.8851
3.8853
8.8858
3.8853
3.8854
61
30
3.8854
8.8855
3.8856
3.8356
8.8357
3.8858
3.8358
3.8859
3.8859
3.8860
51
40
3.8861
3.8861
3.8868
3.8363
3.8863
3.8364
3.8365
3.8865
3.8366
3.8867
51
50
8.8867
3.8868
3.8869
3.8369
3.8870
3.8370
3.8371
3.8878
3.8878
3.8873
1 53
0
3.8874
3.8874
3.8875
3.8376
3.8876
3.8877
3J878
3.8378
3.8979
3.8880
58
10
3.8980
3.8881
3.8881
3.8383
3.8383
3.8383
3.8384
3.8885
3.8885
3.8886
58
90
3.8887
3.8887
8.8388
3.S889
3.8889
3.8890
3.8890
3.8391
3.8899
3.8898
58
30
3.8893
3.8894
3.8894
3.8395
3.8896
8.8896
3.8897
3.8398
3.8898
3.8899
58
40
3.8899
3.8300
3.8301
3.8301
3.8308
3.8303
3.8303
3.8304
3.8305
3.8305
58
50
3.8306
3.8307
3.8307
3.8308
3.8308
3.8309
3.8310
3.8310
3.8311
3.8318
1 5.1
0
3.8318
3.8313
3.8314
3.8314
3.8315
3.8315
3.8316
3.8317
3.8317
3.8318
53
10
3.8319
3.8319
3.8330
3.8331
3.8331
3.8333
3.8383
3.8383
3.8394
8.8384
53
80
3.8385
3.8386
3 8386
3.8337
3.8388
8.8388
3.8339
3.8330
3.8330
3J331
53
30
3.8331
3.8333
3.8333
8.8333
3.8334
3.8335
3.8335
3.8336
3J337
3.8337
53
40
3.8338
3.8338
3.8339
3.8340
3.8340
3.8341
3.8348
3.8343
3.8343
3.8344
53
50
3.8344
3.8345
3.8345
3.8346
3.8347
8.8347
3.8348
3.8349
3.8349
3.8350
1 54
0
3.8851
3.8351
3.8363
3.8353
3.8353
3.8354
3.8354
3.8355
3.8356
3.8356
54
10
8.8357
3.8358
3.8358
3.8359
3.8359
3.8360
3.8361
3J361
3.8368
3.8363
54
80
3.8363
3.8364
3.8365
3.8365
3.8366
3.8366
3.8367
3J368
3.8368
3.8369
54
30
3.8370
3.8370
3.8371
3.8371
3.8379
3.8373
3.8373
3.8874
3.8375
3.8375
54
40
3.8376
3.8377
3.8377
3.8378
3.8378
3.8379
3.8380
3.8380
3.8381
3.8389
54
60
3.8888
8.8383
3.8383
8.8384
3.8385
3.8385
3.8386
3.8387
3.8387
3J388
1 55
0
3.8388
3.8389
3.8390
3.8390
8.8391
3.8899
3.8393
3.8393
3.8394
3.8394
55
10
3.8395
3.8395
3.8396
3.8397
3.8397
8.8398
3.8399
3.8399
3.8400
3.8400
55
80
3.8401
3.8408
3.8403
3.8403
3.8404
3.8404
3.8405
3.8405
3.8406
3.8407
55
30
3.8407
8.8408
3.8409
3.8409
3.8410
8.8410
3.8411
3.8419
3.8418
3.8413
55
40
3.8414
3.8414
3.8415
3.8415
3.8416
8.8417
8.8417
3.8418
3.8419
3.8419
56
60
3.8480
3.8430
3.8491
8.8488
3.8488
3.8493
3.8484
3.8484
3.8435
3.8495
1 56
0
3.8486
3.8487
3.8487
3.8438
3.8489
3.8489
3.8430
3.8431
3.8439
56
10
3.8438
3.8433
3.8434
3.8434
3.8435
8.8435
3.8436
3.8437
3.8437
3.8438
56
80
3.8439
3.8439
8.8440
3.8440
3.8441
3.8449
3.8448
3.8443
3.8444
56
30
3.8445
3.8445
3.8446
3.8447
8.8447
3.8448
3.8448
3.8449
3.8450
3.8450
56
40
3J451
3.8459
3.8458
3.8453
3.8453
8.8454
3.8455
3.84;»5
3.8456
3.8457
56
50
3.8457
3.8458
3.8458
3.8459
8.8460
3.8460
3.8461
3J468
3.8468
3.8463
1 57
0
3.8463
3.8464
3.8465
3.8465
3.8466
3.8466
3.8467
3.8468
3.8468
3.8469
57
10
3.8470
3J470
3.8471
3.8471
3.8479
3.8473
3.8473
3.8474
3.8474
3.8475
57
90
3.8476
3.8476
3J477
3.8478
3.8478
3.8479
3.8479
3.8480
3.8481
3.8481
57
30
3.8483
3.8483
3.8483
3.8484
3.8484
3.8485
3.8486
3.8486
3.8487
3.8487
57
40
3.8488
3.8489
3.8489
3.8490
8.8491
3.8491
3.8498
3.8498
8.8493
3.8494
57
50
3J494
3 8495
3.8495
3.8496
3.8497
3.8497
3.8498
3.8499
3.8499
33600
1 58
0
3.8500
3.8501
3.8508
3.8503
3.8508
3.8503
3.8504
3.8505
8.8505
3.8606
58
10
3.8506
3.8507
3.8508
3.8508
8.8509
3.8510
3.8510
3.8511
3.8511
3.8619
58
80
3.8513
3.8513
3.8514
3.8514
3.8515
3.8516
3.8516
3.8517
3.8617
3.8618
58
30
3.8519
3.8519
3.8580
3.8581
3.8531
3.8588
3.8598
3.8583
3.8584
3.8694
58
40
3^85
3.8585
3.8536
3.8587
3.8537
3.8588
3.8588
3.8519
3.8530
3.8530
•8
60
3.8531
3.8533
38538
3.8533
3.8533
3.8534
3.8535
3.8535
3.8536
3.8536
1 59
0
3.8537
3.8538
3.8638
3.8539
3J539
3.8540
3^041
3.8541
3.8548
3.8649
69
10
3.8543
3.8544
3.8544
3.8545
3.8.H5
3.8546
3.8547
3.8547
3.8548
3.8649
69
80
3.8549
3.8550
3.8550
3.8551
8.8559
3.8558
3.8553
3.8563
3.8554
3.8656
69
30
3.8555
3.8556
3.8556
3.8557
8.8558
3.8558
3.8559
3.8559
3.8560
3.8561
69
40
3 8561
3.8568
3 8569
3.8563
3.8564
3.8564
3.8565
3.8565
3.8566
3.8567
69
60
3.8567
8.8568
3.8568
3.8569
3.8570
3.8570
3.8571
3.8578
3.8578
3.8573
60
TABLE IX.
Il — ■
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Afc
6
i
^
3
4
5
6
II
7
8
u
9
51- (^-d
3.8573
3.8574
3.8575
3.8575
3.8576
3.8576
3.8577
3.8578
3.8578
3.8579
0
10
3.8579
3.8580
3.8581
3.8581
3.8582
3.8582
3.8583
3.8584
3.8584
3.8585
0
20
3.8585
3.8586
3.8587
3.8587
3.8588
3.8588
3.8589
3.8590
3.8500
3.8591
0
30
3.8591
3.8592
3.8593
3.8593
3.8594
3.8594
3.8595
3.8596
3.8596
3.8597
0
40
3.8597
3.8598
3.8599
3.8599
3.8600
3.8600
3.8601
3.8602
3.8602
3.8603
0
50
3.8603
3.8604
3.8605
3.8605
3.8606
3.8606
3.8607
3.8608
3.8608
3.8609
2 1
0
3.8609
3.8610
3.8611
3.8611
3.8612
3.8612
3.8613
3.8614
3 8614
3.8615
10
3.8615
3.8616
3.8617
3.8617
3.8618
3.8618
3.8619
3.8620
3.8620
3.8621
20
3.8621
3.8622
3.8623
3.8623
3.8624
3.8624
3.8625
3.8625
3.8626
3.8627
30
3.8627
3.8628
3.8628
3.8629
3.8630
3.8630
3.8631
3.8631
3.8632
3.8633
40
8.8633
3.8634
3.8634
3.8635
3.8636
3.8636
3.8637
3.8637
3.8638
3.8639
50
3.8639
3.8640
3.8640
3.8641
3.8642
3.8642
3.8643
3.8643
3.8644
3.8645
3 2
0
3.8645
3.8646
3.8646
3.8647
3.8647
3.8648
3.8649
3.8649
3.8650
3.8650
2
10
3.8651
3.8652
3.8652
3.8653
3.8653
3.8654
3.8655
3.8655
3.8656
3.8656
2
20
3.8657
3.8658
3.8658
3.8659
3.8659
3.8660
3.8661
3.8661
3.8662
3.8662
2
30
3.8663
3.8663
3.8664
3.8665
3.8665
3.8666
3.8666
3.8667
3.8668
3.8668
2
40
3.8669
3.8669
3.8670
3.8671
3.8671
3.8672
3.8672
3.8673
3.8673
3.8674
2
50
3.8675
3.8675
3.8676
3.8676
3.8677
3.8678
3.8678
3.8679
3.8679
3.8680
2 3
0
3.8681
3.8681
3.8682
3.8682
3.8683
3.8684
3.8684
3.8685
3.8685
3.8686
3
10
3.8686
3.8687
3.8688
3.8688
3.8689
3.8689
3.8690
3.8691
3.8691
3.8692
3
20
3.8692
3.8693
3.8693
3.8694
3.8695
3.8695
3.8696
3.8696
3.8697
3.8698
3
30
3.8698
3.8699
3.8699
3.8700
3.8701
3.8701
3.8702
3.8702
3.8703
3.8703
3
40
3.8704
3.8705
3.8705
3.8706
3.8706
3.8707
3.8708
3.8708
3.8709
3.8709
3
50
3.8710
38710
3.8711
3.8712
3.8712
3.8713
3.8713
3.8714
3.8715
3.8715
2 4
0
3.8716
3.8716
3.8717
3.8717
3.8718
3.8719
3.8719
3.8720
3.8720
3.8721
10
3.8722
3.8722
3.8723
3.8723
3.8724
3.8724
3.8725
3.8726
3.8726
3.8727
20
3.8727
8.8728
3.8729
3.8729
3.8730
3.8730
3.8731
3.8731
3.8732
3.8733
30
3.8733
3.8734
3.8734
3.8735
3.8736
3.8736
3.8737
3.8737
3.8738
3.8738
40
3.8739
3.8740
3.8740
3.8741
3.8741
3.8742
3.8742
3.8743
3.8744
3.8744
50
3.8745
3.8745
3.8746
3.8747
3.8747
3.8748
3.8748
3.8749
3.8749
3.8750
2 5
0
3.8751
3.8751
8.8752
3.8752
3.8753
3.8754
3.8754
3.8755
3.8755
3.8756
10
3.8756
3.8757
3.8758
3.8758
3.8759
3.8759
3.8760
3.8760
3.8761
3.8762
1 "
20
3.8762
3.8763
3.8763
3.8764
3.8764
3.8765
3.8766
3.8766
3.8767
3.8767
SO
3.8768
3.8769
3.8769
3.8770
3.8770
3.8771
3.8771
3.8772
3.8773
3.8773
40
3.8774
3.8774
3.8775
3.8775
3.8776
3.8777
3.8777
3.8778
38778
3.8779
50
3.8779
3.8780
3.8781
3.8781
3.8782
3.8782
3.8783
3.8783
8.8784
3.8785
2 6
0
3.8785
3.8786
3.8786
3.8787
3.8788
3.8788
3.8789
3.8789
3.8790
3.8790
10
3.8791
3.8792
3.8792
3.8793
3.8793
3.8794
3.8794
3.8795
3.8796
3.8796
20
3.8797
3.8797
3.8798
3.8798
3.8799
3.8800
3.8800
3.8801
3.8801
3.8802
30
3.8802
3.8803
3.8804
3.8804
3.8805
3.8805
3.8806
3.8806
3.8807
3.8808
40
3.8808
3.8809
3.8809
3.8810
3.8810
3.8811
3.8812
3.8812
3.8813
3.8813
50
3.8814
3.8814
3.8815
3.8816
3.8816
3.8817
3.8817
3.8818
3.8818
3.8819
2 7
0
3.8820
3.8820
3.8821
3.8821
3.8822
3.8822
3.8823
3.8824
3.8824
3.8825
10
3.8825
8.8826
3.8826
3.8827
3.8828
3.8828
3.8829
3.8829
3.8830
3.8830
20
3.8831
3.8832
3.8832
3.8833
3.8833
3.8834
3.8834
3.8835
3.8835
3.8836
30
3.8837
3.8837
3.8838
3.8838
3.8839
3.8839
3.8840
3.8841
3.8841
3.8842
40
3.8842
3.8843
3.8843
3.8844
3.8845
3.8845
3.8846
3.8846
3.8847
3.8847
50
3.8848
3.8849
3.8849
3.8850
3.8850
3.8851
3.8851
3.8852
3.8852
3.8853
2 8
0
3.8854
3.8854
3.8855
3.8855
3.8856
3.8856
3.8857
3.8858
3.8858
3.8859
10
3.8859
3.8860
3.8860
3.8861
3.8862
3.8862
3.8863
3.8863
3.8864
3.8864
20
3.8865
3.8865
3.8866
3.8867
3.8867
3.8868
3.8868
3.8869
3.8869
3.8870
30
3.8871
3.8871
3.8872
3.8872
3.8873
3.8873
3.8874
3.8874
3.8875
3.8876
40
3.8876
3.8877
3.8877
3.8878
3.8878
3.8879
3.8880
3.8880
3.8881
3.8881
50
3.8882
31^882
3.8883
3.8883
3.8884
3.8885
3.8885
3.8886
3.8886
3.8887
2 9
0
3.8887
3.8888
3.8889
3.8889
3.8890
3.8890
3.8891
3.8891
3.8892
3.8892
10
3.8893
3.8894
3.8894
3.8895
3.8895
3.8896
3.8896
3.8897
3.8897
3.8898
20
3.8899
3.8899
3.8900
3.8900
3.8901
3.8901
3.8902
3.8903
3.8903
3.8904
30
3.8904
3.8905
3.8905
3.8906
3.8906
3.8907
3.8908
3.8908
3.8909
3.8909
40
3.8910
3.8910
3 8911
3.8911
3.8912
3.8912
3.8913
3.8914
3.8914
3.8915
50
3.8915
3.8916
3.8916
3.8917
3.8918
3.8918
3.8919
3.8919
3.8920
3.8920
68
61
TABLE IX.
II ll
LOGARITHMS OF SMALL ARCS JN SPACE OR TIME.
Arc.
n
0
u
1
2
u
3
I
5
d
7
4
9
2*»id'»- ()••
3^921
8.8922
3.8922
3.8923
3.8923
3.8924
^.8924
3.8925
3.8995
3.8996
10 10
3.8927
3.8927
3.8928
3.8928
3.8929
3.8929
3.8930
3.8930
3.8931
3J939
10 20
3.8932
3.8933
3.8933
3.8934
3.8934
3.8935
3.8935
3.8936
3.8937
3.8937
10 30
3.8938
3.8938
8.8939
3.8939
3.8940
3.8940
3.8941
3.8941
3.8942
3.8943
10 40
3.8943
3.8944
3.8944
3.8945
3.8945
3.8946
3.8946
3.8947
3.8948
3.8948
10 50
3.8949
3.8949
3.8950
3.8950
3.8951
3.8951
3.8952
3.8953
3.8953
3.8954
2 11 0
3.8954
3.8955
3.8955
3.8956
3.8956
3.8957
3.8958
3.8958
3.8959
3.8959
11 10
3.8960
3.8960
3.8961
3.8961
3.8962
3.8963
3.8963
3.8964
3.8964
3.8965
11 20
3.8965
3.8966
3.8966
3.8967
3.8967
3.8968
3.8969
3.8969
3.8970
3.8970
11 30
3.8971
3.8971
3.8972
3.8972
3.8973
3.8974
3.8974
3.8975
3.8975
3.8976
11 40
3.8976
3.8977
3.8977
8.8978
3.8978
3.8979
3.8980
3.8980
3.8981
3.8981
11 50
3.8982
3.8982
3.8983
3.8983
3.8984
3.8985
3.8985
3.8986
3.8986
3.8987
2 12 0
3.8987
3.8988
3.8988
3.8989
3.8989
3.8990
3.8991
3.8991
3.8992
3.8999
12 10
3.8993
3.8993
3.6994
8.8994
3.8995
3.8995
3.8996
3.8997
3.8997
3J998
12 20
3.8998
3.8999
3.8999
3.9000
3.9000
3.9001
3.9001
3.9002
8.9003
3.9003
12 30
3.9004
3.9004
3.9005
3.9005
3.9006
3.9006
3.9007
3.9007
3.9008
3.9009
12 40
3.9009
3.9010
3.9010
3.9011
3.9011
3.9012
3.9012
3.9013
3.9013
3.9014
12 50
3.9015
3.9015
3.9016
3.9016
3.9017
3.9017
3.9018
3.9018
3.9019
3.9019
2 13 0
3.9020
3.9021
3.9021
3.9022
3.9022
3.9023
3.9023
3.9024
3.9024
3.9095
13 10
3.9025
3.9026
3.9027
3.9027
3.9028
3.9028
3.9029
3.9029
3.9030
3.9030
13 20
3.9031
3.9031
3.9032
3.9033
3.9033
3.9034
3.9034
3.9035
3.9035
3.9036
13 30
3.9036
3.9037
3.9037
3.9038
3.9038
3.9039
3.9040
39040
3.9041
3.9041
13 40
3.9042
3.9042
3.9043
3.9043
3.9044
3.9044
3.9045
3.9046
3.9046
3.9047
13 50
3.9047
3.9048
3.9048
3.9049
3.9049
3.9050
3.9050
3.9051
3.9051
3.9052
2 14 0
3.9053
3.9053
3.9054
3.9054
3.9055
3.9055
3.9056
3.9056
3.9057
3.9057
14 10
3.9058
3.9058
3.9059
3.9060
3.9060
3.9061
3.9061
3.9062
3.9062
3.9063
14 20
3.9063
3.9064
3.9064
3.9065
3.9066
3.9066
3.9067
3.9067
3.9068
3.9068
14 30
3.9069
3.9069
3.9070
3.9070
3.9071
3.9071
3,9072
3.9073
3.9073
3.9074
14 40
3.9074
3.9075
3.9075
3.9076
3.9076
3.9077
3.9077
3.9078
3.9078
3.9079
14 50
3.9079
3.9080
3.9081
3.9081
3.9082
3.9082
3.9083
3^083
3.9084
3.9084
2 15 0
3.9085
3.9085
3.9086
3.9086
3.9087
3.9088
3.9088
3.9089
3.9069
3.9090
15 10
3.9090
3.9091
3.9091
3.9092
3.9092
3.9093
3.9093
3.9094
3.9094
3.9095
15 20
3.9096
3.9096
3.9097
3.9097
3.9098
3.9098
3.9099
3.9099
3.9100
3.9100
15 30
3.9101
3.9101
3.9102
3.9103
3.9103
3.9104
3.9104
3.9105
3.9105
3.9106
15 40
3.9106
3.9107
3.9107
3.9108
3.9108
3.9109
3.9109
3.9110
3.9111
3.9111
15 50
3.9112
3.9112
3.9113
3.9113
3.9114
3.9114
3.9115
3.9115
3.9116
3J116
2 16 0
3.9117
3.9117
3.9118
3.9118
3.9119
3.9120
3.9120
3.9121
3.9191
3.9199
16 10
3.9122
3.9123
3.9123
3.9124
3.9124
3.9125
3.9125
8.9126
3.9126
3.9197
16 20
3.9128
3.9128
3.9129
3.9129
3.9130
3.9130
3.9131
3.9131
3.9132
3.9139
16 30
3.9133
3.9133
3.9134
3.9134
3.9135
3.9135
3.9136
3.9137
3.9137
3.9138
16 40
3.9138
3.9139
3.9139
3.9140
3.9140
8.9141
3.9141
3.9142
3.9142
34»143
16 50
3.9143
3.9144
3.9144
3.9145
3.9146
3.9146
3.9147
3.9147
3i^l48
3J148
9 17 0
3.9149
3.9149
3.9150
3.9150
3.9151
8.9151
3.9152
3.9152
S.9153
3.9153
17 10
3.9154
3.9155
3.9155
3.9156
3.9156
3.9157
3.9157
3.9158
3.9158
3.9159
17 20
3,9159
3.9160
3.9160
3.9161
3.9161
3.9162
3.9162
8.9163
3.9163
3J164
17 30
3.9165
3.9165
3.9166
3.9166
3.9167
3.9167
3.9168
3.9168
3.9169
3J169
17 40
3.9170
3.9170
3.9171
3.9171
3.9172
3.9172
3.9173
3.9173
3.9174
3J175
17 50
3,9175
3.9176
3.9176
3.9177
3.9177
3.9178
8.9178
3.9179
3.9179
3.9180
2 18 0
3.9180
3.9181
3.9181
3.9182
3.9182
3.9183
3.9183
3.9184
3.9184
3.9185
18 10
3.9186
3.9186
3.9187
3.9187
3.9188
8,9188
3,9189
8.9189
3.9190
3.9190
18 20
3.9191
3.9191
3.9192
3.9192
3.9193
3.9193
3.9194
3.9194
3.9195
3J195
18 SO
3.9196
3.9197
3.9197
3.9198
3.9198
3.9199
3,9199
3.9900
83900
3.9901
18 40
3.9201
3.9202
3.9202
3.9203
3.9203
3.9204
3.9204
3.9205
3a»05
3.9906
18 50
3.9206
3.9207
3.9207
3.9208
3.9209
3.9209
3.9210
S.9210
3.9911
3.9911
2 19 0
8.9212
3.9212
3.9213
3.9213
3.9214
3.9214
8.9215
3.9915
S.9916
3.9916
19 10
3.9217
3.9217
3.9218
3.9218
3.9219
3.9219
3.9290
3.9991
3.9991
3J999
19 20
8.9222
3.9223
p.9223
3.9224
3.9224
3.9225
3.9295
3.9996
3.9996
3.9997 '
19 30
3.9227
3.9228
3.9228
3.9229
3.9229
3.9230
3.9930
3.9931
8.9931
3.9939
19 40
3.9232
3.9233
3.9233
3.9234
3.9235
S.9235
3.9936
3.9936
3.9937
3.9937
19 50
3.9238
3.9238
3.9239
3.9239
3.9240
3,9240
3.9941
3.9941
3.9949
3J949
62
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Are.
0
1
^
i
4
5
If
6
7
8
9
2h.2o«-o^
8.9243
3.9243
3.9244
3.9244
3.9245
3.9245
3.9246
3.9246
3.9247
3.9247
20
10
3.9248
3.9248
3.9249
3.9250
3.9250
3.9251
3.9251
3.9252
3.9252
3.9253
20
20
3.9253
3.9254
3.9254
3.9255
3.9255
3.9256
3.9256
3.9257
3.9257
3.9258
20
30
3.9258
3.9259
3.9259
3.9260
3.9260
3.9261
3.9261
3.9262
3.9262
3.9263
20
40
3.9263
3.9264
3.9264
3.9265
3.9265
3.9266
3.9267
3.9267
3.9268
3.9268
20
50
3.9269
3.9269
3.9270
3.9270
3.9271
3.9271
3.9272
3.9272
3.9273
3.9273
2 21
0
3.9274
3.9274
3.9275
3.9275
3.9276
3.9276
3.9277
3.9277
3.9278
3.9278
21
10
3.9279
3.9279
3.9280
3.9280
3.9281
3.9281
3.9282
3.9282
3.9283
3.9283
21
20
3.9284
3.9284
3.9285
3.9285
3.9286
3.9287
3.9287
3.9288
3.9288
3.9289
21
30
3.9289
3.9290
3.9290
3.9291
3.9291
3.9292
3.9292
3.9293
3.9293
3.9294
21
40
3.9294
3.9295
3.9295
3.9296
3.9296
3.9297
3.9297
3.9298
3.9298
3.9299
21
50
3.9299
3.9300
3.9300
3.9301
3.9301
3.9302
3.9302
3.9303
3.9303
3.9304
2 22
0
3.9304
3.9305
3.9305
3.9306
3.9306
3.9307
3.9307
3.9308
3.9308
3.9309
22
10
3.9309
3.9310
3.9311
3.9311
3.9312
3.9312
3.9313
3.9313
3.9314
3.9314
22
20
3.9315
3.9315
3.9316
3.9316
3.9317
3.9317
3.9318
3.9318
3.9319
3.9319
22
30
3.9320
3.9320
3.9321
3.9321
3.9322
3.9322
3.9323
3.9323
3.9324
3.9324
22
40
3.9325
3.9325
3.9326
3.9326
3.9327
3.9327
3.9328
3.9328
3.9329
3.9329
22
50
3.9330
3.9330
3.9331
3.9331
3.9332
3.9332
3.9333
3.9333
3.9334
3.9334
2 23
0
3.9335
3.9335
3.9336
3.9336
3.9337
3.9337
3.9338
3.9338
3.9339
3.9339
23
10
3.9340
3.9340
3.9341
3.9341
3.9342
3.9342
3.9343
3.9343
3.9344
3.9344
23
20
3.9345
3.9345
3.9346
3.9346
3.9347
3.9348
3.9348
3.9349
3.9349
3.9350
23
30
3.9350
3.9351
3.9351
3.9352
3.9352
3.9353
3.9353
3 9354
3.9354
3.9355
23
40
3.9355
3.9356
3.9356
3.9357
3.9357
3.9358
3.9358
3.9359
3.9359
3.9360
23
50
3.9360
3.9361
3.9361
3.9362
3.9362
3.9363
3.9363
3.9364
3.9364
3.9365
2 24
0
3.9365
3.9366
3.9366
3.9367
3.9367
3.9368
3.9368
3.9369
3.9369
3.9370
24
10
3.9370
3.9371
3.9371
3.9372
3.9872
3.9373
3.9373
3.9374
3.9374
3.9375
24
20
3.9375
3.9376
3.9376
3.9377
3.9377
3.9378
3.9378
3.9379
3.9379
3.9380
24
30
3.9380
3.9381
3.9381
3.9382
3.9382
3.9383
3.9383
3.9384
3.9384
3.9385
24
40
3.9385
3.9386
3.9386
3.9387
3.9387
3.9388
3.9388
3.9389
3.9389
3.9390
24
50
3.9390
3.9391
3.9391
3.9392
3.9392
3 9393
3.9393
3.9394
3.9394
3.9395
2 25
0
3.9395
3.9396
3.9396
8.9397
3.9397
3.9398
3.9398
3.9399
3.9399
3.9400
25
10
3.9400
3.9401
3.9401
3.9402
3.9402
3.9403
3.9403
3.9404
3.9404
3.9405
25
20
3.9405
3.9406
3.9406
3.9407
3.9407
3.9408
3.9408
3.9409
3.9409
3.9410
25
30
3.9410
3.9411
3.9411
3.9412
3.9412
3.9413
3.9413
3.9414
3.9414
3.9415
25
40
3.9415
3.9416
3.9416
3.9417
3.9417
3.9418
3.9418
3.9419
3.9419
3.9420
25
50
3.9420
3.9421
3.9421
3.9422
3.9422
3.9423
3.9423
3.9424
3.9424
3.9425
2 26
0
3.9425
3.9426
3.9426
3.9427
3.9427
3.9428
3.9428
3.9429
3.9429
3.9430
26
10
3.9430
3.9430
3.9431
3.9431
3.9432
3.9432
3.9433
3.9433
3.9434
3.9434
26
20
3.9435
3.9435
3.9486
3.9436
3.9437
3.9437
3.9438
3.9438
3.9439
3.9439
26
30
3.9440
3.9440
3.9441
3.9441
3.9442
3.9442
3.9443
3.9443
3.9444
3.9444
26
40
3.9445
3.9445
3.9446
3.9446
3.9447
3.9447
3.9448
3.9448
3.9449
3.9449
26
50
3.9450
3.9450
3.9451
3.9451
3.9452
3.9452
3.9453
3.9453
3.9454
3.9454
2 27
0
3.9455
3.9455
3.9456
3.9456
3.9457
3.9457
3.9458
3.9458
3.9459
3.9459
27
10
3.9460
3.9460
3.9461
3.9461
3.9462
3.9462
3.9463
3.9463
3.9464
3.9464
27
20
3.9465
3.9465
3.9466
3.9466
3.9466
3.9467
3.9467
3.9468
3.9468
3.9469
27
30
3.9469
3.9470
3.9470
3.9471
3.9471
3.9472
3.9472
3.9473
3.9473
3.9474
27
40
3.9474
3.9475
3.9475
3.9476
3.9476
3.9477
3.9477
3.9478
3.9478
3.9479
27
50
3.9479
3.9480
3.9480
3.9481
3.9481
3.9482
3.9482
3.9483
3.9483
3.9484
2 28
0
3.9484
3.9485
3.9485
3.94^6
3.9486
3.9487
3.9487
3.9488
3.9488
3.9489
28
10
3.9489
3.9490
3.9490
3.9490
3.9491
3.9491
3.9492
3.9492
3.9493
3.9493
28
20
3.9494
3.9494
3.9495
3.9495
3.9496
3.9496
3.9497
3.9497
3.9498
3.9498
28
30
3.9499
3.9499
3.9500
3.9500
3.9501
3.9501
3.9502
3.9502
3.9503
3.9503
28
40
3.9504
3.9504
3.9505
3.9505
3.9506
3.9506
3.9507
3.9507
3.9508
3.9508
28
50
3.9509
3.9509
3.9509
3.95 It)
3.9510
3.9511
3.9511
3.9512
3.9512
3.9513
2 29
0
3.9513
3.9514
3.9514
3.9515
3.9515
3.9516
3.9516
3.9517
3.9517
3.9518
29
10
3.9518
3.9519
3.9519
3.9520
3.9520
3.9521
3.9521
3.9522
3.9522
3.9523
29
20
3.9523
3.9524
3.9524
3.9525
3.9525
3.9526
3.9526
3.9526
3.9527
3.9527
29
30
3.9528
3.9528
3.9529
3.9529
3.9530
3.9530
3.9531
3.9531
3.9532
3.9532
29
40
3.9533
3.9533
3.9534
3.9534
3.9535
3.9535
3.9536
3.9536
3.9537
3 9537 i
29
50
3.9538
3.9538
3.9539
3.9.539
3.9540
3.9540
39540
3.9541
3.9541
3.9542 1]
63
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
d
1
5
i
I
5
6
i
i
§
2'»-30«- b*'
3.9542
8.9543
3.9543
3.9544
3.9544
3.9545
3.9545
8.9546
8.9546
8.9547
SO
10
3.9547
8.9548
3.9548
3.9549
3.9549
3.9550
3.9550
3.9551
8.9551
3.9552
30
20
3.9552
3.9553
3.9553
3.9554
3.9554
3.9554
3.9555
3.9555
3.9556
3.9556
30
30
3.9557
3.9557
3.9558
3.9558
3.9559
3.9559
3.9560
3.9560
3.9561
3.9561
30
40
3.9562
3.9562
3.9563
3.9563
3.9564
3.9564
3.9565
3.9565
3.9566
3.9566
30
50
3.9566
3.9567
3.9567
3.9568
3.9568
3.9569
3.9569
3.9570
3.9570
3.9571
2 31
0
3.9571
3.9572
3.9572
3.9573
3.9573
3.9574
3.9574
3.9575
3.9575
3.9576
31
10
8.9576
3.9577
3.9577
3.9578
3.9578
39578
3.9579
3.9579
3.9580
3.9580
31
20
3.9581
3.9581
3.9582
3.9582
3.9583
3.9583
3.9584
3.9584
3 9585
3.9585
31
30
3.9586
3.9586
3.9587
3.9587
3.9588
3.9588
3.9589
3.9589
8.9589
3.9590
31
40
3.9590
3.9591
3.9591
3.9592
3.9592
3.9593
3.9593
3.9594
3.9594
3.9595
31
50
3.9595
8.9596
3.9596
3.9697
3.9597
3.9598
3.9598
3.9599
8.9599
3.9599
2 32
0
3.9600
3.9600
3.9601
3.9601
3.9602
3.9602
3.9603
8.9603
3.9604
3.9JB04
32
10
3.9605
3.9605
3.9606
3.9606
3.9607
3.9607
3.9608
3.9608
3.9609
3.9609
32
20
3.9609
3.9610
3.9610
3.9611
3.9611
3.9612
3.9612
8.9613
3.9613
3.9614
32
30
3.9614
3.9615
3.9615
3.9616
3.9616
3.9617
3.9617
3.9618
3.9618
3.9618
32
40
3.9619
3.9619
3.9620
3.9620
3.9621
3.9621
3.9622
3.9622
3.9623
3.9623
32
50
3.9624
3.9624
3.9625
3.9625
3.9626
3.9626
3.9627
8.9627
3.9627
3.9628
2 33
0
3.9628
3.9629
3.9629
3.9630
3.9630
3.9631
8.9631
3.9632
3.9632
3.9633
33
10
3.9633
3.9634
3.9634
3.9634
3.9635
3.9635
3.9636
3.9636
3.9637
3.9637
33
20
3.9638
3.9638
3.9639
3.9639
3.9640
3.9640
3.9641
3.9641
8.9642
3.9642
33
30
3.9642
3.9643
3.9643
3.9644
3.9644
3.9645
3.9645
3.9646
3.9646
3.9647
33
40
3.9647
3.9648
3.9648
3.9649
3.9649
3.9650
3.9650
3.9651
3.9651
3.9652
33
50
3.9652
3.9653
3.9653
3.9653
3.9654
3.9654
3.9655
3.9655
8.9656
3.9656
2 34
0
3.9657
8.9657
3.9658
3.9658
8.9658
3.9659
3.9659
3.9660
3.9660
3.9661
34
10
3.9661
3.9662
3.9662
3.9663
3.9663
3.9664
3.9664
3.9665
3.9665
3.9665
34
20
3.9666
3.9666
3.9667
3.9667
3.9668
3.9668
3.9669
3.9669
3.9670
3.9670
34
30
3.9671
3.9671
3.9672
3.9672
3.9672
3.9673
3.9673
3.9674
3.9674
3.9675
34
40
3.9675
8.9676
3.9676
3.9677
3.9677
3.9678
3.9678
8.9679
3.9679
3.9680
34
50
3.9680
3.9681
3.9681
3.9682
3.9682
3.9682
3.9683
3.9683
3.9684
3.9684
2 35
0
3.9685
3.9685
3.9686
3.9686
3.9687
3.9687
3.9688
3.9688
8.9689
3.9689
35
10
3.9689
3.9690
3.9690
3.9691
3.9691
3.9692
3.9692
3.9693
3.9693
3.9694
35
20
3.9694
3.9695
3.9695
3.9696
3.9696
3.9696
3.9697
3.9697
3.9698
3.9698
35
30
3.9699
3.9699
3.9700
3.9700
3.9701
3.9701
3.9702
3.9702
3.9703
3.9703
35
40
3.9703
3.9704
3.9704
3.9705
3.9705
3.9706
3.9706
3.9707
3.9707
3.9708
35
60
3.9708
3.9709
3.9709
3.9710
3.9710
3.9710
3.9711
3.9711
3.9712
3.9712
2 36
0
3.9713
3.9713
3.9714
3.9714
3.9715
3.9715
3.9716
3.9716
3.9716
3.9717
36
10
3.9717
3.9718
3.9718
3.9719
3.9719
3.9720
3.9720
3.9721
3.9721
3.9722
36
20
3.9722
3.9722
3.9723
3.9723
3.9724
3.9724
3.9725
8.9725
3.9726
3.9726
36
30
3.9727
3.9727
3.9728
3.9728
3.9729
3.9729
3.9729
8J730
3.9730
3.9731
36
40
3.9731
3.9732
3.9732
3.9733
3.9733
3.9734
3.9734
3.9735
3.9735
3.9735
36
50
3.9736
3.9736
3.9737
3.9737
3.9738
3.9738
3.9739
3.9789
3.9740
3.9740
2 37
0
3.9741
3.9741
3.9741
3.9742
3.9742
3.9743
3.9743
3.9744
3.9744
3.9745
37
10
3.9745
3,9746
3 9746
3.9746
3.9747
3.9747
3.9748
3.9748
3.9749
3.9749
37
20
3.9750
3.9750
3.9751
3.9751
3.9752
3.9752
8.9752
3.9753
3.9753
3.9754
37
30
3.9754
3.9755
3.9755
3.9756
3.9756
3.9757
3.9757
3.9758
3.9758
3.9758
37
40
3.9759
3.9759
3.9760
3.9760
3.9761
3.9761
3.9762
3.9762
3.9763
3.9763
37
50
3.9763
3.9764
3.9764
3.9765
3.9765
3.9766
3.9766
3.9767
3.9767
3.9768 >
2 38
0
3.9768
3.9769
3.9769
3.9769
3J770
3.9770
3.9771
3.9771
3.9772
3.9772
38
10
3.9773
3.9773
3.9774
3.9774
3.9774
3.9775
3.9775
3.9776
3J776
3.9777
38
20
3.9777
8.9778
3.9778
3.9779
3.9779
3.9779
3.9780
8.9780
3.9781
3.9781
38
30
3.9782
8.9782
3.9783
3.9783
3.9784
3.9784
3.9785
3.9785
3.9785
3.9786
38
40
3.9786
3.9787
3.9787
3.9788
3.9788
3.9789
3.9889
3.9790
3.9790
3 9790
38
50
3.9791
3.9791
3.9792
3.9792
3.9793
3.9793
3.9794
3.9794
3.9795
3.9795
2 S9
0
39795
8.9796
3.9796
3.9797
3.9797
3.9798
3.9798
3.9799
3.9799
3.9800
39
10
3.9800
3.9800
8.9801
3.9801
3.9802
8.9802
3.9803
3.9803
3.9804
3J804
39
20
3.9805
3.9805
3.9805
3.9806
3.9806
3.9807
3.9807
3.9808
3.9808
3.9809
39
30
3.9809
3.9810
3.9810
3.9810
3.9811
3.9811
3.9812
3.9812
3.9813
3.9813
39
40
3.9814
3.9814
3.9815
3.9815
3.9815
3.9816
8.9816
3.9817
3.9817
3.9818
39
50
3.9818
3.9819
3.9819
3.9819
3.9820
3.9820
3.9821
3.9821
3.9822
3.9822
64
TABLE IX,
' ' i • ' ' ' !L
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME. |
Arc.
0
M
1
i
i
II
4
5
d
N
7
i
5
2b.40m. 5,.
3.9823
8.9823
8.9824
8.9824
3.9825
8.9825
8.9825
8.9826
3.9826
3.9827
40 10
3.9827
3.9828
3.9828
3.9829
3.9829
3.9829
8.9830
3.9880
8.9831
3.9831
40 20
3.9832
3.9832
3.9838
3.9833
3.9834
3.9834
8.9834
8.9835
3.9835
3.9836
40 SO
3.9836
3.9837
8.9837
8.9838
3.9838
3.9889
3.9839
3.9839
3.9840
3.9840
40 40
3.9841
3.9841
8.9842
3.9842
8.9848
3.9848
3.9843
8.9844
8.9844
3.9845
40 50
3.9845
3.9846
3.9846
8.9847
8.9847
8.9848
8.9848
3.9848
3.9849
3.9849
2 41 0
3.9850
3.9850
8.9851
3.9851
3.9852
8.9852
3.9862
8.9853
8.9853
8.9854
41 10
3.9854
3.9855
8.9855
3.9856
3.9856
8.9857
8.9857
8.9857
8.9858
3.9858
41 20
3.9859
3.9859
3.9860
8.9860
3.9861
3.9861
8.9861
8.9862
3.9862
3.9868
41 30
3.9863
3.9864
3.9864
3.9865
8.9865
8.9865
8.9866
8.9866
8.9867
8.9867
41 40
3.9868
3.9868
3.9969
8.9869
8.9870
8.9870
8.9870
3.9871
8.9871
3.9872
41 50
3.9872
3.9873
8.9873
3.9874
8.9874
8.9874
3.9876
3.9875
3.9876
3.9876
2 42 0
3.9877
3.9877
3.9878
3.9878
3.9878
8.9879
8.9879
3.9880
3.9880
3 9881
42 10
3.9881
3.9882
3.9882
8.9882
3.9883
8.9883
3.9884
8.9884
3.9885
3.9885
42 20
3.9886
3.9886
3.9886
3.9887
3.9887
3.9888
3.9888
8.9889
3.9889
3.9890
42 30
8.9890
3.9890
3.9891
3.9891
8.9892
8.9892
8.9898
8.9893
8.9894
3.9894
42 40
3.9894
3.9895
8.9895
3.9896
3.9896
8.9897
8.9897
8.9898
3.9898
3.9898
42 60
3.9899
3.9899
3.9900
3.9900
3.9901
8.9901
3.9902
8.9902
3.9903
3.9903
2 43 0
8.9903
3.9904
8.9904
3.9905
8.9905
3.9906
8.9906
3.9906
8.9907
8.9907
43 10
3.9908
3.9908
8.9909
8.9909
8.9910
3.9910
8.9910
8.9911
8.9911
3.9912
43 20
3.9912
3.9913
3.9913
3.9914
8.9914
8.9914
3.9915
3.9915
8.9916
3.9916
' 43 30
3.9917
3.9917
3.9918
8.9918
3.9918
3.9919
8.9919
3 9920
3.9920
3.9921
43 40
3.9921
3.9922
8.9922
3.9922
3.9923
8.9923
3.9924
3.9924
3.9925
3.9925
43 50
3.9926
8.9926
3.9926
3.9927
3.9927
8.9928
8.9928
8.9929
8.9929
3.9930
2 44 0
8.9980
8.9980
3.9931
8.9931
8.9932
8.9982
8.9988
8.9933
8.9933
3.9934
44 10
3.9934
8.9935
8.9935
8.9936
3.9936
8.9937
8.9987
3.9987
8.9938
3.9938
44 20
3.9939
3.9939
8.9940
3.9940
8.9941
8.9941
3.9941
8.9942
3.9942
8.9943
44 30
3.9943
3.9944
8.9944
3.9944
8.9945
8.9945
8.9946
3.9946
8.9947
3.9947
44 40
3.9948
8.9948
3.9948
3.9949
8.9949
8.9950
8.9950
3.9951
8.9951
3.9952
44 50
3.9952
3.9952
8.9953
8.9953
3.9954
89954
8.9955
3.9955
3.9955
3.9956
S 45 0
3.9956
8.9957
8.9957
3.9958
3.9958
3.9959
3.9959
3.9959
3.9960
3.9960
45 10
3.9961
3.9961
3.9962
8.9962
3.9962
3:9963
3.9963
3.9964
3.9964
3.9965
45 20
3.9965
3.9966
8.9966
8.9966
3.9967
3.9967
3.9968
3.9968
3.9969
3.9969
45 30
3.9969
3.9970
3.9970
3.9971
3.9971
3.9972
3.9972
3.9973
8.9973
3.9973
45 40
3.9974
3.9974
3.9975
3.9975
3.9976
3.9976
8.9976
3.9977
3.9977
3.9978
45 50
3.9978
3.9979
3.9979
8.9980
8.9980
8.9980
3.9981
3.9981
8.9982
3.9982
2 46 0
3.9983
3.9983
3.9983
3.9984
8.9984
8.9985
3.9985
8.9986
3.9986
3.9987
46 10
3.9987
8.9987
3.9988
3.9988
3.9989
8.9989
3.9990
3.9990
3.9990
8.9991
46 20
3.9991
3.9992
3.9992
8.9998
3.9993
3.9993
3.9994
3.9994
8.9995
8.9996
46 30
3.9996
3.9996
3.9997
3.9997
8.9997
3.9998
3.9998
3.9999
8.9999
4.0000
46 40
4.0000
4.0000
4.0001
4.0001
4.0002
4.0002
4.0003
4.0003
4.0003
4.0004
46 50
4.0004
4.0005
4.0005
4.0006
4.0006
4.0007
4.0007
4.0007
4.0008
4.0008
2 47 0
4.0009
4.0009
4.0010
4.0010
4.0010
4.0011
4.0011
4.0012
4.0012
4.0013
47 10
4.0013
4.0013
4.0014
4.0014
4.0015
4.0015
4.0016
4.0016
4.0016
4.0017
47 20
4.0017
4.0018
4.0018
4.0019
4.0019
4.0019
4.0020
4.0020
4.0021
4.0021
47 30
4.0022
4.0022
4.0023
4.0023
4.0023
4.0024
4.0024
4.0025
4.0025
4.0026
47 40
4.0026
4.0026
4.0027
4.0027
4.0028
4.0028
4.0029
4.0029
4.0029
4.0030
47 50
4.0030
4.0031
4.0031
4.0032
4.0032
4.0032
4.0038
4.0033
4.0034
4.0034
2 48 0
4.0035
4.0035
4.0035
4.0036
4.0036
4.0037
4.0037
4.0038
4.0038
4.0038
48 10
4.0039
4.0039
4.0040
4X)040
4.0041
4.0041
4.0041
4.0042
4.0042
4.0043
48 20
4.0043
4.0044
4.0044
4.0045
4.0045
4XK>45
4.0046
4.0046
4.0047
4.0047
48 30
4.0048
4.0048
4.0048
4.0049
4.0049
4.0050
4.0050
4.0051
4.0051
4.0051
48 40
4.0052
44)052
4.0053
4.0053
4.0054
4.0054
4.0054
4.0055
4.0055
4.0056
48 50
4.0056
4.0057
4.0057
4.0057
4.0058
4.0058
4.0059
4.0059
4.0060
4.0060
2 49 0
4.0060
4.0061
4.0061
4.0062
4.0062
4.0068
4.0063
4.0063
4.0064
4.0064
49 10
4.0065
4.0065
4.0066
4.0066
4.0066
4.0067
4X)067
4.0068
4.0068
4.0069
49 20
4.0069
4.0069
4.0070
4.0070
4.0071
4.0071
4.0072
4.0072
4.0072
4.0073
49 30
4.0073
4.0074
4.0074
4.0074
4.0075
4.0075
4.0076
4.0076
4.0077
40077
49 40
4.0077
4.0078
4.0078
4.0079
4.0079
4.0080
4.0080
4.0080
4.0081
4.0081
49 50
4.0082
4.0082
4.0083
4.0083
4.0083
4.0084
4.0084
4.0085
4.0085
4.0086
65
TABLE IX.
LOGARITHMS OF SMALL ARCS IN SPACE OR TIME.
Arc
0
i
^
3
4
6
6
7
^
9
Si-sd-d
4.0086
4X)086
4.0087
4J00B7
4X)088
4.0088
4.0089
4.0069
4.0089
4.0090
50
10
4J0090
4X)091
4.0091
4X)092
4.0092
4.0092
4.0093
4.0093
44)094
4.0094
50
20
4.0095
4X)095
4.0095
4.0096
.4.0096
4.0097
4X)097
4.0097
44)098
44K)98
50
30
4J0O99
4J0099
4.0100
4X)100
4.0100
4X)101
4X)101
4.0102
4.0102
44)103
50
40
4.0103
4.0103
4.0104
4X)104
4.0105
4X)105
4.0106
4.0106
44)106
4.0107
50
50
4X)107
4.0108
4X)108
4X)109
4X)109
4.0109
4.0110
4J0U0
44)111
4.0111
8 51
0
4.0111
4.0112
4.0112
4X)113
4X)118
4J0\\4
4X)114
4.0114
44)115
44)115
51
10
4.0116
4X)116
4.0117
4X)117
4.0117
4.0118
4X>\IB
4X)119
40119
4.0120
51
20
4.0120
4X)120
4.0121
4X)121
4X)122
4J0122
4.0122
4.0123
44)123
4.0124
51
30
4.0124
4X)125
4X)125
4X)125
4.0126
4.0126
4.0127
4.0127
44)128
4.0128
51
40
4.0128
4X)129
4.0129
4X)130
4.0130
4.0180
4.0131
4.0131
44)132
44)132
51
50
4.0133
4.0133
4J0\39
4.0134
4.0134
4X)185
4.0135
4X)186
44)136
44)136
2 52
0
4.0137
4X)137
4.0138
4.0138
4.0138
4X)189
4.0139
4X)140
44)140
44)141
52
10
4.0141
4.0141
4.0142
4X)142
4.0143
4J014S
4X)144
4.0144
4.0144
4.0145
52
20
4X)145
4.0146
4.0146
4X)146
4.0147
4.0147
4.0148
4.0148
4.0149
44)149
52
30
4.0149
4.0150
4.0150
4X)151
4.0151
4.0152
4X)152
4X)153
44)153
4.0153
52
40
4.0154
4.0154
4.0154
4.0155
4.0155
4.0156
4j0156
4X)I57
44)157
40157
52
50
4.0158
4.0158
4.0159
4X)159
4.0159
4X)160
4X)160
4X)161
44)161
44)162
2 M
0
4.0162
4.0162
4X)163
4.0163
4.0164
4X)164
4X)164
4X)I65
4.0165
4.0166
53
10
4.0166
4.0167
4.0167
4.0167
4.0168
4.0168
4.0169
4.0169
44)169
44)170
53
20
4.0170
4.0171
4.0171
4X)172
4.0172
4X)172
4X>173
4X)173
4.0174
44)174
53
30
4.0175
4X)175
4X)175
4.0176
4X)176
4X)177
4.0177
4.0177
44)178
4.017*8
M.
40
4.0179
4.0179
4.0180
4.0180
4j0180
4.0181
4X)181
4.0182
4.0182
44)182
53
50
4.0183
4.0183
4.0184
4.0184
4.0185
4.0185
4X)185
4X)186
44)186
4.0187
2 54
0
4.0187
4.0187
4.0188
4.0188
4.0189
4J0JB9
4.0190
4X)190
44)190
4.0191
54
10
4.0191
4.0192
4X)192
4X>192
4.0193
4J0\99
4.0194
4J0194
4.0194
4.0195
54
20
4X)195
4.0196
4.0196
4.0197
4.0197
4.0197
4.0198
4.0198
44)199
44)199
54
30
4X)199
4JO2O0
4.0200
4.0201
4.0201
4.0202
4.0202
4.0202
44)203
4.0203 1
54
40
4.0204
4.0204
4JM04
4J0205
4X)205
4.0206
4X)206
4X>207
4.0207
44)207
54
50
4.0208
4.0208
4.0209
4X)209
4.0209
4.0210
4.0210
4.0211
4.0211
44)211
2 55
0
4.0212
4.0212
4.0213
4.0213
4.0214
4X)214
4.0214
4.0215
4.0215
4.0216
55
10
4.0216
4.0216
4.0217
4.0217
4X>218
4.0218
4.0219
4.0219
44)219
44)220
55
20
4.0220
4.0221
4.0221
4.0221
4X)222
4.0222
4X>223
4.0223
4.0223
4.0224
55
30
4.0224
4 0225
4.0225
4.0225
4.0226
4X)226
4X)227
4.0227
44)228
4.0228
55
40
4X>228
4.0229
4.0229
4.0230
4.0230
4X)230
4.0231
4.0231
4.0232
4.0232
55
50
4.0233
4X)233
4.0233
4.0234
4.0234
4.0235
4.0235
4.0235
44)236
44)236
2 56
0
4.0237
4.0237
4.0237
4.0238
4U>238
4.0239
4.0239
4i)240
40240
4.0240
56
10
4.0241
4.0241
4X>242
4.0242
4.0242
4.0243
4J024S
4.0244
4.0244
44)244
56
20
4.0245
4.0245
4.0246
4.0246
4.0246
4.0247
4.0247
4.0248
44)248
44)249
56
30
4.0249
4.0249
4.0250
4xmo
4J025\
4.0251
4.0251
4.0252
44)252
44)253
56
40
4.0253
4J025S
40254
4.0254
4.0255
4.0255
4.0256
4.0256
44)256
44)257
56
50
4X>257
4.0258
4 0258
4X)258
4.0259
4.0259
4J0M0
4J0M0
44)260
44)261
2 57
0
4X>261
4.0262
4.0262
4X)262
4X>263
4X)263
4.0264
4.0264
44)265
44)265
57
10
4.0265
4X)266
4.0266
4.0267
4X)267
4.0267
4.0268
4j0268
4.0269
4.0269
57
20
4Xm9
4X)270
4.0270
4.0271
4.0271
4j0271
4X)272
4J0272
44)273
44)273
57
30
4.0273
4j0274
4X)274
4.0275
4.0275
4X)276
4.0276
4X)276
44)277
4.0277
57
40
4J0mS
4j0278
4X)278
4.0279
4.0279
4.0280
4J0990
4X)280
44)281
44)281
57
50
4.0282
4X)282
4j0282
4X)283
4X)283
4X)284
4i)284
4J0n4
44)285
44)285
2 58
0
4X)286
4X)286
4.0287
4X)287
4.0287
4.0288
4X>288
4.0289
44)289
44)289
58
10
4J0290
4.0290
4.0291
4j0291
4.0291
4X)292
4.0292
4X>293
44)293
4.0293
58
20
4X)294
4X)294
4.0295
4X)295
4.0295
4X>296
4.0296
4J0M7
44)297
4.0297
58
30
4X)298
4J029S
4X)299
4X)299
4.0300
4.0300
4/)300
4.0301
4.0301
44)302
58
40
4.0302
4X)302
4.0303
4J0303
4.0304
4j0304
4J0904
44)305
44)305
44)306
58
50
4X)306
4XKm
4j0307
4X)307
4JQ30S
4X)308
44)308
4J0309
44)309
4.0810
2 59
0
4.0310
4j0310
4mu
4X>311
4J0S12
4.0312
4^12
4J0S13
44)313
44)314
59
10
4.0314
4.0314
4.0315
4j0315
4.0316
4.0316
4X>317
4j0317
44)317
44)318
59
20
4.0318
4J0319
4.0319
4j03I9
4.0320
4.0320
4j032I
4j0321
44)321
44)322
59
30
4.0322
4.0323
4X)323
4.0323
4.0324
4X)324
4X>325
44»25
44)325
4.0326
59
40
4X)326
4.ai27
4.0327
4.0327
4X)328
4.0328
4X>329
4J0329
44)329
44)330
59_
50
4X)390
4.a331
4.0331
4X)33I
4X>332
4.0332
4JM99
4.0333
4.0333
40834
66
TABUS X.
TABLE, SHOWING THB CORRECTION REQUIRED, ON ACCOUNT OF
SECOND DIFFERENCES OF THE MOON'S MOTION, IN FINDING
THB GREENWICH TIME CORRESPONDING TO A
CORRECTED LUNAR DISTANCE.
Approxfanata
latenraL
h. m.
0 0
0 10
0 20
0 30
0 40
0 50
1 0
1 10
I 20
1 30
h. m.
0 0
0 10
0 20
0 SO
0 40
0 50
1 0
1 10
1 20
1 30
h. m.
0 0
0 10
0 20
0 30
0 40
0 50
b. m.
3 0
2 50
2 40
2 30
2 20
2 10
2 0
1 50
1 40
1 30
h. m.
3 0
2 50
2 40
2 30
2 20
2 10
2 0
1 50
1 40
1 30
h. m
3 0
2 50
2 40
2 30
2 20
2 10
MeiBBM of the ProporUoial logirithiiu in the Ephemeris.
S 4 6 8 10 IS 14 16 18 20 12 24 26 28 SO S2 14 16 18 40 42 44 46 48 §0 §1
10 2 0
1 10 1 50
1 20 1 40
1 30' 1 30
I
Differenee of the FroportioDal logirithiiu in the Ephemeris.
M §6 §S 60 62 64 66 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 98 100 102
0
4
8
11
14
16
18
19
20 20
2021
1
18 19
19 20
21
21
19 20,21
21' 21 22
2l'22!23
22 23|23
Oi 0
5{ 5
10,10
14 14 14
17,17 18
20 20*21
21 22 22 23
22 23 24 24
23 24 25 25
24 24 25 25
0 0
6, 6
11 11
15 15 16
19 19119
22 22,22
24 25
26 27
27 28
27 28
26 27
28 28
29 29
29 30
Differenee of the Proportional Logarithms in the Ephemeris.
104
106
108
110
11!
114
116
118
120 122
124
126
128
112
114
1}6
IS8
0
9
17
24
SO
34
38
41
42
48
The Cbrrecti<m is to be added to the approzlroate Oneenwich Time wbea the Proportional Logaritbme in the
EpbemeriB a^o decmuingf and tublraetea when they are ineretuing.
67
TABLE XI.
■
LOG. iV FOR DISTANCES FROM THE SUN
.
n^'i
18S^.
Qh.
1^'
1
.'■
ir
1^
IS"*
ll"*
18ff.
+0.66
.69
6".
.72
9^-
.74
.77
1^
.79
18^-
31
33
Jml 7
—0.76
.78
.79
.80
.81
~2
.83
.84
Apr. 10
8
0.85
.86
.87
.87
.88
39
39
.90
11
035
036
0 88
039
031
0.92
0.93
035
9
0.90
.91
.91
.91
.92
.92
32
.92
12
0.96
037
038
0.99 130
131
132
132
10
0.92
.92
.92
.92
.92
.92
32
32
13
+133
134
134
1351136
136
137
1.07
U
0.92
.91
.91
.91
.90
.90
39
39
18
—030
0.78
0.77
0.76
0.75
0.73
0.71
0.69
1
12
—0.88
.87
.86
.85
.84
33
32
31
19
—037
35
.63
.60
38
35
32
48'
13
0.80
.78
.77
.75
.73
.71
.69
.66
20
—046
41
36
31
35
.18
.10
30
14
0.63
.60
.56
.52
48
42
36
38
22
+0.12
30
36
32
37
41
45
49
20
0.71
.74
.76
.79
.81
.83
.84
35
23
032
35
38
.60
.63
35
37
39
21
0.87
.88
.89
.89
.90
.91
31
32
24
0.71
.73
.75
.76
.78
.79
30
32
22
—0.92
.93
.93
.93
.93
.93
.93
.93
25
+033
.84
.85
36
37
38
.89
.90
23
0.93
.93
.93
.92
.92
.91
31
.90
26
031
32
.93
.93
34
35
0.95
0.96
24
0.90
.89
.89
.88
.87
36
35
.84
27
0.97
0.97
038
38
39
.99
099
1.00
25
0.83
.82
.81
.80
.78
.77
.75
.74
May 6
9.7719.96
O.IO
30
38
35
0.40
^it\
26
0.72
.70
.68
.66
.04
31
39
36
7
0.50
a54
038
31
34
37
.70
.72 1
1
27
—0.53
A9
45
41
.37
31
35
.18
8
+0.75
.77
.79
30
32
34
35
37
FeK 6
0.88
JBB
.88
.89
.89
39
39
39
9
088
39
.90
.92
.93
.94 0.94
0.95
7
0.89
.89
.89
.89
.89
.88
M
38
10
036
0.97
037
0.98,0.99
039 0.99
1.00
8
0.87
.87
M
.86
.85
34
33
.82
11
1.00
1.01
131
131
131
131
131
i.or
9
0.82
.80
.79
.78
.77
.75
.74
.72
12
131
131
131
1.01
•■"'
1.00 1.00
130
10
—0.70
.68
.66
.64
.61
38
35
32
13
+039
0.09
098
037 037
a96 0.95
0.94
11
—0.48
43
.38
.32
.25
.16
35
9.89
18
—0.46
41
35
39
32
.13 0.03
9.89
13
H-0.43
A9
.55
.60
.64
39
.73
.76
20
+033
39
34
39
.43
47
031
034
14
H-0.80
.83
.87
.90
^3
.96
.99
1.02
21
037
39
32
.64
.66
38
.70
.72,
18
—0.78
.80
.82
.84
.85
36
37
M
22
0.73
.75
.76
.78
.79
31
32
33
1
19
-0.89
J9
.90
.90
.90
.90
.90
.90
23
+0.84
35
36
37
38
38
.89
V^
20
0.90
.89
.89
.89
.88
38
37
36
24
031
31
32
.93
.93
.94
.94
.94 t
21
0.86
.85
.84
.83
.82
31
.79
.78
25
0.95
35
.96
36
.96
.96
.96
.97:
22
0.77
.75
.74
.72
.70
39
37
.64
26
037
37
37
37
37
37
37
.96'
23
0.62
.60
.57
.54
.51
48
44
40
27
0.96
36
36
35
35
34
.94
■"1
26
-4-0.30
.36
41
45
49
33
36
.60
iwm 8
+035
.18
M
35
42
47
32
I
36
M«r. 8
-0.83
.82
S\
.80
.79
.78
.77
.76
4
0.60
.63
.66
.69
.72
.74
.76
.78
9
0.74
.73
.71
.70
.68
.66
34
.60
5
030
32
.83
35
36
37
.88
39
10
—0.59
.56
.53
49
45
41
36
30
6
0.90
31
32
33
.94
.94
35
35
12
H-0.91
M
.17
.26
.34
40
46
31
7
036
.96
.97
37
37
37
38
38
1
13
H-0.55
.59
.63
.67
.70
.73
.76
.78
8
+0.98
38
.98
38
37
37
37
1
37;
14
0.81
0.83
0.85
0.87
0.89
0.91
0.93
0.95
9
0.96
.96
35
35
.94
.94
.93
32
15
-H).97
0.99
\J0O
1.02
1X>3
1.05
136
1.08
10
031
31
.90
38
37
36
35
33!
19
—0.78
0.80
0.82
0.84
0.84
0.85!0.85
0.86
11
032
30
.78
.76
.73
.71
.68
.64
20
-0.86
.86
.85
.85
.84
34
33
32
17
0.18
36
32
38
.43
47
31
34
1
21
-0.82
.81
.80
.78
.77
.76
.74
.73
18
+037
.60
.63
35
37
.69
.71
.73
22
0.71
.69
.67
.65
.63
31
38
35
19
0.74
.76
.77
.79
30
31
32
33
23
—0.53
A9
46
42
.38
33
37
31
20
0.84
35
36
37
37
JSS
.89
39,
25
+0.84
.98
J0%
.16
.23
.29
35
39
21
0.90
.90
31
31
32
.92
33
.93
26
0.44
AS
.51
34
37
.60
.63
.65
22
0.93
.93
32
.94
34
34
.94
^
27
-H).67
.69
.71
.73
75
.77
.79
30
83
+0.94
.94
.94
33
.93
33
33
.92<
28
+0.82
.83
.85
M
37
38
.90
31
24
0.92
31
31
.90
.90
39
38
M.
Apr. 6
—0.67
.65
.63' .61
38
35
32
48
25
037
.86
35
33
32
31
.79
.78!
7
-0.44
AO
.35! W
.22
.13! 33
.88
Jdy a
0.82
34
.85
37
38
39
.90
Jll
9
+0.31
.37
43 48
32
36< 30
.63
4
032
.92
33
.93
.93
.94
.95
J»i
68
TABLE XI.
LOG. N FOR DISTANCES FROM THE SUN
[.
18^.
Qh.
»•*•
9"
gh.
ir
1^
1?"
8^
im.
r
,h.
6\
9^-
ir
.58
IS**-
.61
.63
July 5
4-0.95
.95
.96
.96
.96
.95
.95
.96
Oct. 8
-0.40
44
48
.52
.56
6
0.95
.95
.94
.94
.94
.93
.93
.92
4
0.66
.68
.70
.72
.74
.76
.77
.79!
7
091
.91
.90
.89
.88
.87
.86
.85
6
0.80
.82
.83
.84
.86
.87
.88
.89
8
0.84
.83
.81
.80
.78
.76
.75
.73
6
0.90
.91
.92
0.93
0.94
0.95
0.96
0.96
9
0.70
.68
.66
.63
.60
0.67
0.53
049
7
—0.97
.98
.98
0.99
1.00
IJOO
1.01
\J02
10
-hO.M
.39
.38
.26
.16
0.04
9.86
9.54
13
4^.84
.83
.82
0.81
0.80
0.78
0.77
0.76
16
0.47
.52
.56
.60
.63
0.66
0.68
0.70
14
0.74
.72
.71
.69
.67
.64
.62
.69
17
0.72
.74
.76
.77
.79
.80
.81
.82
16
4-0.56
.53
.50
46
42
.37
.31
.25
18
0.83
.84
.85
.86
.86
.87
.88
.88
17
-9.98
.10
.20
.28
.34
40
45
.50
19
0.89
.89
.90
.90
.90
.91
.91
.91
18
0.54
.58
.61
.64
.67
.70
.73
.76
20
4-0.91
.91
.91
.91
.91
.91
.91
.91
19
—0.77
.79
.81
.83
.86
.86
.88
.89
21
0.91
.91
.90
.90
.90
.89
.89
.88
80
0.91
.92
.93
.94
.96
.97
.98
J9
22
0.88
.87
.86
.85
.85
.84
.83
.82
SO
9.99
.10
.18
.26
.31
.36
41
45
-23
0.80
.79
.78
.76
.75
.73
.71
.69
31
049
.52
.55
Ji8
.61
.63
.65
.68
24
0.67
.64
.62
.59
.55
.52
47
42
Not. 1
0.70
.72
.73
.76
.77
.78
.79
.81
Aug. 1
4-0.91
.92
.92
.93
.93
.93
.94
.94
2
—0.82
.83
.84
.85
.86
.87
.88
.89
2
0.94
.94
.94
.94
.93
.93
.93
.92
3
090
.91
.91
.92
.93
.93
.94
.94
3
0.92
.91
.91
.90
.90
.89
.88
.87
4
0.95
.95
.96
.96
.96
.97
.97
.97
4
0.86
.85
.86
.83
.82
.80
.79
.77
5
0.98
.98
.98
.98
.98
.98
.98
.98
5
0.76
.74
.72
.70
.68
.66
.63
.61
6
—0.98
.98
.98
.98
.98
.97
.97
.97
6
-M)JS8
.55
.51
.47
.43
.38
J3
.27
12
4-0.53
48
.43
.37
.31
.23
.14
.02
8
—9.93
.07
.17
.26
.33
.39
45
.50
14
—0.28
.35
41
46
.50
.54
.58
.61
9
—0.54
.58
.62
.66
.69
.72
.75
.78
15
0.64
.67
.76
.72
.74
.77
.79
.80
15
4-0.79
.81
.82
.83
.84
.85
.86
.86
16
0.82
.84
.85
.87
.88
.89
.90
.91
16
0.87
.87
.88
.88
.88
.89
.89
.89
17
0.92
.93
.94
.95
.96
0.96
0.97
0.97
17
4-0 89
.89
.89
.89
.89
.88
.88
.88
18
—0.98
0.98
0.99
0.99
0.99
1.00
1.00
IJOO
18
0^
.87
.87
.86
.86
.85
.84
.84
19
IJOO
1.00
\J00
1.00
1.00
1.00
0,99
0.99
19
0.83
.82
.81
.80
.79
.78
.76
.75
27
0.06
0.16
0.24
0.31
0.36
041
45
49
20
0.73
.72
.70
.68
66
.64
.61
.58
28
0.53
.56
.69
.62
.64
.66
.68
.70
21
+0.55
.52
.48
44
.40
.34
.28
.20
29
0.72
.73
.75
.76
.78
.79
.80
.82
23
-0.17
.27
.35
.42
48
.53
.58
.63
30
—0.83
.84
.85
.86
.86
.87
.88
.89
30
4-0.92
.92
.92
.91
.91
.91
.90
.90
Dec 1
0.89
.90
.91
.91
.92
.92
.93
.93
31
0.89
.88
.87
.87
.86
.86
.84
.82
2
0.93
.94
.94
.94
.94
.95
.95
.95
Sept. 1
0.81
.70
.78
.77
.75
.74
.72
.70
3
0.96
.95
.95
.96
J6
.95
.94
^4
2
0.67
.65
.63
.60
.57
.54
.51
47
4
0.94
.94
.93
.93
.93
.92
.92
.91
3
+0.43
.38
.33
.27
.20
.12
.02
.88
6
—0.90
.90
.89
.88
.87
.86
.86
.84
5
—0.24
.31
.36
41
46
.50
.53
.57
6
0.82
.81
.79
.77
.75
.73
.70
.67
6
0.60
.63
.65
.68
.70
.73
.75
.77
12
0.38
.44
49
.64
.68
.62
.65
.68
7
—0.79
.81
.83
.84
.86
AS
.89
.71
13
0.71
.73
.75
.77
.79
.81
.83
.84
13
4-0.88
.84
.85
.85
.86
.86
.86
.87
14
0.86
.87
.88
.89
.90
.91
.92
.93
14
4-0.87
.87
.87
.86
.86
.86
.86
.85
15
—0.93
.94
.95
.95
.96
.96
.96
.97
15
0.85
.84
.83
.83
J2
.81
.80
.79
16
0.97
.97
.97
.97
.97
.97
.97
.97
16
0.78
.77
.75
.74
.72
.71
.69
.67
17
0.97
.96
.96
.96
.96
.95
.94
.94
17
0.65
.63
.60
.58
.55
0.52
048
044
18
0.93
.92
.91
.90
.89
.88
.87
.86
18
4-0.40
.35
.29
.22
14
0.03
9.89
9.67
27
0.72
.73
.75
.76
.78
.79
.80
.81
20
—0.39
.44
49
.54
.58
0.62
0.66
0.69
28
—0.83
.84
.84
.85
.86
.87
.88
.88
21
-0.71
.74
.77
.79
.82
.84
.86
.8ff
29
0.89
.89
.90
.90
.91
.91
.91
.92
39
4-0.77
.75
.74
.72
.70
.68
.66
.63
30
0.92
.92
.92
.92
.93
.93
.93
.93
30
4-0.60
0.57
0.54
0.50
46
42
.37
.32
31
—0.93
.92
.92
.92
.92
.92
.91
.91
Oct. 2
—9.5819.81
9.97
0.08
.16
.24
.30
.35
1
•
TABLE XII.
For finding the Ttlue of ATlbr cofreainf lunr dtouncw for the eampnm\<m of iht — rth.
TABLE XII
. A. giving lit Part of N. ]
TABLE XIL B,
giving
2d Piirtof iV
App
Dm.
o
J> 8 DKliiuuiua. ll
App.
*^
B DecUiuuioa. I{
it
0
0
1$
1§
N
It
5l
N
0
10,
0
I
N
I
f
1
N
if
M
i[
ll
21
)
0 0 ' 0 !
M M «
0
«
1
^1
20
-0
3
6
10
13 1619 1
22
25 28 31
20
-H)
3
10|
14
17 20
24 27 30 33 1
22
0
3
12
14 17
20
23; 25 28 !
22
0
3
6
13
16 19
22 25 27|30i
24
0
3
11
13 16
18
21 23 25 1
24
0
3
6
12
14 17
20| 23 25' 28
26
0
2
10 12:14
17
19 21123 1
26
0
3
11
13 16
18' 21 23 26*
28
0
2
9 11 13
15
17
19, 21 .
28
0
3
10
12!l5
17 20 22,24;
30
-0
2
8 lo!l2
14
16
18 20I
30
H-0
2
9
12 14
16
18 21
23
1 ^^
0
2
8
9 11
13
15 16 18 >
32
0
2
9
11,13
15
17 19
21
1 84
0
2
7
9 10
12
14 15 17^
34
0
2
8
11 13
15
16 18
20
36
0
2 3|
7
8 10
11
13 14 16 ,
36
0
2
8
10,12
14
16 17 19 1
i ^^
0
2 3|
6
8
9
10
12 13 14 1
38
0
2
8
10,11
13 15 17 18
1 ^
-0
3
6
7
8
10
11
12 13'
40
+0
2
7
911
13 14 16 18i
42
0
3
5
7
9
10
11 13!
42
0
2
7
9 10
12 14 15 171
44
0
2
5
6
8
10
11
12 1
44
0
2
3
7
8 10
12
13 15 16
46
0
2
5
6
8
9 10
11 1
46
0
2
3
6
8 10
11
13 14 16
48
0
2
4
5
7
8 9
10
48
0
3
6
81 9
11 12 14' 15
50
— 0
2
4
5
7
8
9
10 1
50
-H)
3
6
81 9
11 1 12 13^ 15
52
0
1 2|
4
5
6
7
8
52
0
3
6
7 9
10 12 13 14
54
0
2
3
3
4
6
7
7
54
0
3
6
7
10 11 13 14
56
0
2
2
3
4
5
6
7
56
0
3
6
7
lU 11 12 14
58
0
I
2
3
4
5
6
6
58
0
3
6
7
10 11 12 13
60
— 0
1
2
3
3
5
5
6
60
-H)
3
5
7
9 11 12 13
62
0
1
3
3
4
5
5
62
0
3
7
9 10 12 13
64
0
*l ^
2
3
4
4
5
64
0
3
7
9 10 11 13
66
0
2
3
4
4
5
66
0
3
6
9. 10 11 121
68
0
0, I
2
2
3
4
4
68
0
3
6
9 10 11 12
70
-0
0 1
2
2
3
3
4
70
•4-0
3
«
9 10 11' 12
72
0
0 1
2
2
3
3
3
72
0
6
9 10 Uj 12
I; 74
0
0 1
1
2
2
3
3
74
0
1
6
8 10 ir 12
76
0
0 1
1
1
2
3
76
0
1
6
8 9 n' 12
1 78
0
01 0
1
1
2
2
78
0
6
8 9 11 12
80
-0
0 0
1
1
1
1
2
2 1
80
H-0
6
8 9 10' 11
82
0
0 0
0
1
1
1
1
0 1
82
0
6
8 9 10| 11
84
0
o' 0
0
0
1
1
1
84
0
6
8; 9 10 11
• 86
0
0 0
0
0
0
0
1
1
86
0
6
8' 9 10 11
88
0
0.0
0
0
0
0
0
0
0
88
0
.
6
8 9, 10: 11
90
—0
o' 0
0
0
0
0
0
0
0
90
H-0
6
8 9 10, ir
92
-4-0
0
0
0
0
0
0
0
0
0
92
0
6
8, 9
10 11
94
0
0
0
0
0
0
0
1
1
I
94
0
6
s! 9
10 11
96
0
0
0
0
0
1
1
1
1
96
0
1
6
8 9
10 11
98
0
0
0
0
1
I
1
1
1
98
0
1 1
6
8
9
10 11
100
-H)
0
0
1
1
1
1
2
2
100
H-0
6
8
9
lol 11
102
0
0
0
1
1
2
2
2
102
0
6
8
9
ir 12
104
0
0
1| 1
1
2
2
3
104
0
1
6
8
9
11 12
106
0
0
1
2
2
3
3
106
0
' 1
6
8' 10
11 12
108
0
0
2
2
3
3| 3
108
0
1|2
6
9 10
11:12
110
-H)
0
2
2
3
3 4
no
H-0
1! 3
6
9 10
11' 12
112
0
0
2
2
3
4 4
112
0
1. 8
6
9 10
11 12
114
0
2
3
4 4
5
114
0
1
8
6, 8
9 10
11 12
116
0
2
3
4 4
5
116
0
1 •
3
7
9 10 IP 13
118
0
3
3
4
5
5
118
0
1
3
i *
7
9 10 12 13
120
-H)
3
3
5
6
6
120
4-0
8
1
t *
7
9; 11* 12 13
122
0
3
4
5
6| 6
122
0
3
^1 *
10; 11 12 13
124
0
2
3
4
5| 6! 7
124
0
8
5I 7
10; 11 12 14
;126
0
i; 2
3! 3
4
5
6, 7 7
126
0
S
6 7
10
11 13 14
128
0
h ^
3 4
5
5
6 7 8' 9
128
0
8
Oi 7
10
12 13 14
130
-hO
l' 2
s! 4
516
7 8 9 10
130
-hC
> a
3
It) a
11
12 13 15
Thtil
grvt in the
VhMlh
(P column applv lo •!! th« nambwa In
» <kclltialkin U South, chftofe iht Afo
tiMMOMil
ne, aodfti
wto
bt OMd wk« Uw ikdlaaikM b
NTtA.
+ to — an
d-to-|.
70
EPHEMERIS OF NEPTUNE
FOR
18 5 3.
NEPTUNE, 1853.
For WaahingUm S6en^ Noon tad Meridian IVanaK.
Maui SoUr Time of
Meridian Tmuii.
Side.
reaJ
Date.
Apparent Declination.
Log. of Motion in
a Sidereal Minute.
Log of Factor
for Second Diff'a.
At Sid. OIL
At
Transit.
At Sid. OIL
At
Transit
In R.A.
In Dec.
laR.A.
In Dec
d.
h. m.
h. m. a.
m. a.
O 1 il
1 H
Jan. 1
4 0.9
0
22 44 31.24
44 36.13
- 8 57 18.1
56 47.5
+7.551
+8.347
2
8 57.0
1
22 44 3641
44 4141
8 56 45.8
56 14.6
7.559
8.355
3
3 53.1
2
22 44 41.69
44 46.80
8 56 12.9
55 41.1
7.567
8.363
- 4
3 49.2
3
22 44 47.09
44 52Ji9
8 55 394
55 7.0
7.575
8.371
5
3 454
4
22 44 52.59
44 57.88
8 55 5.2
54 32.3
7.583
8.373
6
8 41.6
6
22 44 58.18
45 3.58
8 54 30.5
53 57.0
7.590
8.385
7
3 37.8
6
22 45 3.88
45 9.37
8 53 55.2
53 21.2
7.598
8.392
8
8 34.0
7
22 45 9.67
45 15.25
8 53 194
52 44.8
7.606
8.399
9
3S0Jt
8
22 45 15.56
45 21.23
8 52 42.9
52 7.8
7.613
8406
10
3 26.3
9
22 45 21.54
45 27.30
8 52 5.8
51 30.2
7.621
8413
11
3 22.5
10
22 45 27.62
45 3347
8 51 28.2
50 52.1
7.628
8419
12
3 18.6
11
22 45 33.79
45 39.73
8 50 50.1
50 13.5
7.635
8425
•
13
3 14.8
12
22 45 4a05
45 46X)7
8 50 11.5
49 344
7.641
8.431
14
8 11.0
13
22 45 46.40
45 52.50
8 49 32.3
48 54.7
7.647
8.437
15
3 7.2
14
22 45 52.83
45 59.01
8 48 52.6
48 14.6
7.653
8.443
16
3 3.4
15
22 45 59.35
46 5.61
8 48 12.5
47 34.0
7.658
8.448
17
2 59.6
16
22 46 5.95
46 12.30
8 47 31.9
46 52.9
7.664
8453
18
2 55.7
17
22 46 12.64
46 19.07
8 46 50.8
46 11;}
7.669
8458
19
2 51.9
18
22 46 1942
46 25.91
8 46 9.1
45 29.2
7.674
8463
20
2 48.1
19
22 46 26.27
46 32.83
8 45 27.0
44 46.7
7.679
8468
21
2 44.3
20
22 46 33.19
46 39.83
8 44 44.5
44 3.8
7.684
8472
22
2 40.5
21
22 46 40.19
46 46.90
8 44 1.6
43 20.5
7.689
8476
23
2 36.7
22
22 46 47.26
46 54.04
8 43 18.3
42 36.7
7.693
8480
24
2 32.9
23
22 46 54.40
47 1.25
8 42 34.5
41 52.5
7.698
8484
25
2 29.1
24
22 47 1.62
47 8.53
8 41 50.2
41 7.9
7.702
8488
26
2 25.2
25
22 47 8.90
47 15.87
8 41 5.6
40 23.0
7.706
8492
27
2 21.4
26
22 47 16.24
47 23.28
8 40 20.7
39 37.7
7.710
8496
28
2 17.6
27
22 47 23.65
47 30.75
8 39 354
38 51.9
7.714
8.500
29
2 13.8
28
22 47 31.12
47 38.28
8 38 49.6
38 5.8
7.717
8.503
30
2 10J0
29
22 47 38.66
47 45.87
8 38 3.5
37 194
7.721
8.507
31
2 2.2
30
22 47 46.26
47 53.53
8 37 17.0
36 32.6
7.724
8.510
Feb. 1
2 2.4
31
22 47 53.91
48 1.24
8 36 30.2
35 45.5
7.727
8.513
2
158.6
82
22 48 1.62
48 9.01
8 35 43.1
34 58.1
7.730
8.516
3
1 54.8
33
22 48 9.39
48 16.83
8 34 55.7
34 104
7.733
8.519
4
151.0
84
22 48 17.22
48 24.70
834 8.0
33 22.3
7.736
8.522
5
147.2
35
22 48 25.09
48 32.61
8 33 19.9
32 34.0
7.738
8.524
6
143.4
86
22 48 33.00
48 40.57
8 32 31.6
31 454
7.741
8.527
7
139.6
37
22 48 40.96
48 48.58
8 31 43.0
30 56.6
7.744
8.529
8
135.8
38
22 48 48.98
48 56.64
8 30 54.2
30 7.6
7.746
8.532
9
132X>
39
22 48 57.04
49 4.74
8 30 5.2
29 18.3
7.749
8.534
10
1 28 J
40
22 49 5.14
49 12.87
8 29 15.9
28 28.8
7.751
8.536
11
1 244
41
22 49 13.27
49 21.04
8 28 264
27 39.1
7.753
8.538
12
1 20.6
42
22 49 21.44
49 29.25
8 27 36.7
26 49.2
7.755
8.540
13
1 16.8
43
22 49 29.65
49 3749
8 26 46.8
25 59.1
7.757
6M2
14
1 13.0
44
22 49 37.90
49 45.76
8 25 56.6
25 8.8
7.759
8.543
15
I 9Jt
45
22 49 46.17
49 54.06
8 25 6.3
24 184
7.760
8.545
16
1 5.5
46
22 49 5447
50 2.39
8 24 15.9
23 27.8
7.762
8.546
17
1 1.7
47
22 50 2.80
50 10.74
8 23 25.3
22 37.1
7.763
8.547
18
0 57.9
48
22 50 11.15
50 19.12
8 22 34.6
2146.3
7.765
8.548
19
0 54.1
49
22 50 19.53
5(» 27.52
8 21 43.8
20 554
7.766
8.549
20
0 50.8
50
22 50 27.93
50 35.93
8 20 52.9
20 4.3
7.767
8.550
21
0 46.5
51
22 50 36.34
50 44.36
8 20 1.8
19 13.1
7.768
8.551
22
0 42.7
52
22 50 44.77
50 52.81
8 19 10.6
18 21.8
7.769
8..'^52
23
0 89.0
53
22 50 53.22
51 1.27
8 18 193
17 30.5
7.770
8.552
24
0 35.2
64
22 51 1.68
51 9.74
8 17 28.0
16 39.2
7.770
8.5.53
25
0 3M
55
22 51 10.15
51 18.23
8 16 36.7
15 47.8
7.771
8.553
26
0 27.6
56
22 51 18.64
51 26.73
8 15 45.3
14 56.3
7.771
8.553
27
0 23.8
57
22 51 27.14
5135.23
8 14 53.9
14 4.9
7.771
8.553
28
0 20.0
58
22 51 35.64
51 43.73
8 14 2.5
13 13.5
7.771
8.553
Mar. 1
016.2
59
22 51 44.14
5152.24
813 11.1
12 22.1
7.772
8.553
2
0 12.4
60
22 51 52.65
52 0.76
- 8 12 19.7
1130.6
+7.772
+8.553
73
NEPTUNE, 1853.
For Washington ^Qderaal Noon and
Meridian Transit.
Mean SoUr Time of
Meridian Transiu
Side-
real
Date
Apparent Right Aeceneioo.
Apparent DecUoatloo.
Log. of Motion in
a Sidereal Minute.
Lof. of Factor
For Second Dire
AtSkLOh.
At
Transit.
At Sid. Oh.
At
Tnuwit.
InR.A.
In Dec.
In R.A.
In Dec.
d. K. III.
h. m. s.
m. 8.
O f II
i If
~~~ "~^~
Mar. 3 0 8.6
61
22 52 1.16
52 9.27
-8 11 28.2
10 39.2
+7.772
+8.553
4 0 4.8
62
22 52 9.67
52 17.78
8 10 36.8
9 47.8
7.772
8.553
5 0 1.0
63
22 .'(2 18.18
52 26.28
8 9 45.4
8 56.5
7.771
8.553
5 23 57.2
64
22 52 26.68
52 34.77
8 8 54.1
8 5.3
7.771
8.552
6 S3 53.4
65
22 52 35.17
52 43.26
8 8 2.9
7 14.1
7.771
8.552
7 23 49.6
66
22 52 43.66
52 51.74
8 7 11.7
6 23.0
7.770
8.551
8 23 45.8
67
22 52 52.14
53 0.20
8 6 20.6
5 32.0
7.769
8.550
ff 23 42.0
68
22 53 0.60
53 8.65
8 5 29.6
4 41.1
7.769
8.549
10 23 38.3
69
22 53 9.03
53 17.08
8 4 38.8
3 504
7.768
8.548
n 23 34.5
70
22 53 1747
53 25.49
8 3 48.1
2 59.8
7.767
SM7
12 23 30.7
71
22 53 25.88
53 33.88
8 2 57.5
4 9.3
7.766
8.546
13 23 26.9
72
22 53 34.27
53 42.25
'8 2 7jO
119X)
7.765
8.545
14 23 23.1
73
22 53 42.64
53 50Ji9
8 1 16.7
0 28.8
7.764
a543
15 23 19.3
74
22 53 50.98
53 58.91
7 60 26.5
59 38 8
7.763
8.542
16 23 15.5
75
22 53 59.29
54 7.20
7 59 36.5
58 49X)
7.761
8.540
17 23 11.7
76
22 54 7.58
54 15.46
7 58 46.7
57 59.3
7.760
8.538
18 23 7.9
77
22 54 15.84
54 23.69
7 57 57.1
57 9.9
7.758
8.536
19 23 4.1
78
22 54 24.07
54 31.89
7 57 7.7
56 20.8
7.757
8.534
20 23 0.5
79
22 54 32.26
54 40.04
7 56 18.6
55 31.9
7.755
8.53S
21 22 56.5
80
22 54 40.41
54 48.16
7 55 29.7
54 43.2
7.753
8.530
22 S2 52.7
81
22 54 48.53
54 56.24
7 54 41.0
53 54.8
7.751
8.528
23 22 48.9
82
22 54 56.61
55 4.28
7 53 52.6
53 6.7
7.749
8.526
24 22 45.1
83
22 55 4.64
55 12.28
7 53 4.5
52 18.8
7.747
8.523
25 22 41.3
84
22 55 12.64
55 20.24
7 52 16.7
5131.2
7.744
8.521
26 22 37.5
85
22 55 20 59
55 28.15
7 51 29.1
50 43.9
7.742
8.518
27 22 33.7
86
22 55 28JK)
55 36X)1
7 50 41il
49 56.9
7.739
8^15
28 22 29.9
87
22 55 36.36
55 43.83
7 49 54.8
49 10.3
7.736
8.512
29 22 26.1
88
22 55 44.18
55 51.60
7 49 8.2
48 24X)
7.733
8.509
30 22 22.3
69
22 55 51.94
55 59iJl
7 48 22J0
47 38.0
7.730
8.506
31 22 18.5
90
22 55 59.65
56 6.97
7 47 36.0
46 52.3
7.727
8.502
Apr. 1 22 14.7
91
22 56 7.31
56 14.58
7 46 50.3
46 7.0
7.724
8499
2 22 10.9
92
22 56 14.91
56 22.13
7 46 5.0
45 22.1
7.721
8.495' il
3 22 7.1
93
22 56 22.46
56 29.62
7 45 20.1
44 37Ji
7.717
8492,
1
4 22 3.3
94
22 56 29 95
56 37.05
7 44 35.6
43 53.3
7.714
8488
1
5 21 59.5
95
22 56 37.38
56 44.41
7 43 51.4
43 9.6
7.711
8484
6 21 55.7
96
22 56 44.74
56 51.71
7 43 7.7
42 26.3
7.707
8.480
7 21 51.9
97
22 56 52.03
56 58.95
7 42 24.4
4143.3
7.703
8476
8 21 48.1
98
22 56 59.26
57 6.12
7 4141.5
41 0.8
7.699
8472
9 21 44.2
99
22 57 6.42
57 13.22
7 40 59.0
40 18.7
7.695
8468
10 21 40.4
100
22 57 13.52
57 20.25
7 40 17.0
39 37.2
7.690
8463
11 21 36.6
101
22 57 20.55
57 27.21
7 39 354
38 56.1
7.686
8458
12 21 32.8
102
22 57 27.51
57 34.09
7 38 54.3
38 15JS
7.681
8.453
13 21 29.0
103
22 57 34J19
57 40.90
7 38 13.7
37 35.3
7.677
8.448
14 21 25.2
104
22 57 41.19
57 47.63
7 37 33.6
36 55.6
7.672
8.443
15 21 21.3
105
22 57 47.91
57 54.28
7 36 53.9
36 164
7.667
8.438
16 21 17.5
106
22 57 54.56
58 0.85
7 36 14.7
35 37.8
7.662
8432
17 21 13.7
107
22 58 1.13
58 7.35
7 35 36.1
34 59.7
7.657
8.426
18 21 9.8
108
22 58 7.62
58 13.76
7 34 58.1
34 22.1
7.651
8420
1
19 21 6.0
109
22 58 14.03
58 20.09
7 34 20JS
33 45X)
7.646
8414
20 21 2.2
110
22 58 20.35
58 26.33
7 33 43.4
33 84
7.640
a408
21 20 58.4
111
22 58 26.59
58 32.49
7 33 6.8
32 32.3
7.634
8402
22 20 54.6
112
22 58 32.75
58 38.57
7 32 30.7
3156.8
7.628
8^5
23 20 50.7
113
22 58 38.82
58 44.56
7 31 55.2
SI 21.9
7.622
8.388
24 20 46.9
114
22 58 44.80
• 58 50.46
7 3120.3
30 47.6
7.615
8.381
)
25 20 43.0
115
22 58 50.70
58 56.27
7 30 46.0
30 13.8
7.609
8^74
)
26 20 39.2
116
22 58 56.51
59 1.99
7 30 12.3
29 40.6
7.602
8.367
27 20 35.4
117
22 59 2.23
59 7.61
7 29 39.2
29 8.0
7.595
8^9
28 20 31^
118
22 59 7.8r>
59 13.14
7 29 6.6
28 36X)
7.588
8.351
29 20 27.7
119
22 59 13.37
59 18.57
7 28 34 6
28 4.6
7.580
8.343
30 20 23.9
120
22 59 18.80
59 23.91
7 28 3.2
27 33.8
7.573
8.335
' Mar 1 SO SOO
121
22 59 24.13
59 29.16
- 7 27 32.4
27 3.6
4-7.565
4«.3S6
71
NEPl^UNE, 1853.
For WashingtAQ Sidereal Noon and Meridian Transit.
Mean SoUr Time of
Mttridian Tniosii.
Side-
real
Date.
Appareat Right Asceodion.
Apparent Declination.
Log. of Motion ill
a Sidereal Mmule.
Log of Factor
for Second Diff'a.
At Sid. Oh.
At
Traiiail.
At Sid. Oh.
At
Transit.
la R.A.
In Dec.
In R.A.
In Dec.
d.
h. m.
h.
m. 8
rn. 8.
O 1 If
1 II
May 2
20 16.2
122
22 59 29.37
59 34.31
- 7 27 2.3
26 34.1
+7.557
+8.317
3
20 12.3
123
22 59 34.52
59 39.36
7 26 32.8
26 5.1
7.548
8.308
4
20 as
124
22 59 39.56
59 44JJ0
7 26 3.9
25 36.8
7.540
8.299
5
20 4.6
125
22 59 41.50
59 49.14
7 25 35.7
25 9.2
7.531
8.289
6
20 0.8
126
22 59 49.34
59 53.88
7 25 8.1
24 42^
7.522
8.279
7
19 56.9
127
22 59 54.08
59 58.51
7 24 41.2
24 16.0
7.512
8.268
8
19 53.1
128
22 59 58.71
60 3.04
7 24 14.9
23 50.3
7.502
8.257
9
19 49.2
129
23
0 3.23
0 7.46
7 23 49.3
23 25.3
7.492
8.246
10
19 45.4
130
23
0 7.64
0 11.77
7 23 24.3
23 0.9
7.481
8.235
11
19 41.5
131
23
0 11.95
0 15.98
7 22 59.9
22 37.2
7.471
8.223
12
19 37.7
132
23
0 16.15
0 20.08
7 22 36.3
22 14.3
7.460
8.210
13
19 33.8
133
23
0 20.25
0 24.07
7 22 13.4
21 52.1
7.448
8.197
14
19 30.0
134
23
0 24.24
0 27.95
7 21 51.2
2130.6
7.436
8.183
15
19 26.1
135
23
0 28.11
0 31.72
7 21 29.7
21 9.7
7.424
8.169
16
19 22.2
136
23
0 31.87
0 35.37
7 21 8.9
20 49.5
7.411
8.154
17
19 18.3
137
23
0 35.52
0 38.91
7 20 48.7
20 30.0
7.397
8.138
18
19 14.5
138
23
0 39.06
0 42.34
7 20 29.2
20 11.3
7JJ83
8.122
19
19 10.6
139
23
0 42.48
0 45.66
7 20 10.5
19 53.3
7.369
8.105
20
19 6.7
140
23
0 45.79
0 48.86
7 19 52.5
19 36.0
7.354
8.088
21
19 2.8
141
23
0 48.99
0 51.95
7 19 35.3
19 19.4
7.339
8.069
22
18 58.9
142
23
0 52.07
0 54.92
7 19 18.8
19 3.5
7.323
8.049
23
18 55.0
143
23
0 55.04
0 57.78
7 19 3.0
18 48.4
7.306
8.029
24
18 51.1
144
23
0 57.89
1 0.52
7 18 47.9
18 34.0
7.288
8.009
25
18 47.2
145
23
1 0.63
1 3.15
7 18 33.5
18 20.3
7.269
7.987
26
18 43.3
146
23
1 3.26
1 5.67
7 18 19.8
18 7.3
7.250
7.964
27
18 39.4
147
23
1 5.77
1 8.06
7 18 6.8
17 55.0
7.230
7.939
28
18 35.5
148
23
1 8.16
1 10.33
7 17 54.5
17 43.5
7.209
7.912
29
18 31.6
149
23
1 10.42
1 12.48
7 17 43.0
17 32.7
7.186
7.884
SO
18 27.7
150
23
1 12.56
1 14.51
7 17 32.3
17 22.7
7.162
7.855
31
18 23.8
151
23
1 14.59
1 16.42
7 17 22.3
17 13.5
7.136
7.823
June 1
18 19.9
152
23
1 16.50
1 18.22
7 17 13.1
17 5.0
7.110
7.788
2
18 160
153
23
1 18.29
1 19.90
7 17 4.7
16 57.2
7.082
7.750
8
18 12.1
154
23
1 19.96
12M6
7 16 57.0
16 50.2
7.051
7.709
4
18 8.2
155
23
1 21.52
122.90
7 16 50.0
16 44X)
7.018
7.664
5
18 4.3
156
23
1 22.96
124.22
7 16 43.8
16 38.5
6.982
7.613
6
18 0.4
157
23
1 24.27
12541
7 16 38.3
16 33.8
6.942
7.554
7
17 56.5
158
23
1 25.46
1 26.48
7 16 33.6
16 29.8
6.899
7.486
8
17 52.6
159
23
1 26.53
127.44
7 16 29.7
16 26.6
6.850
7.405
9
17 48.7
160
23
1 27.48
1 28.27
7 16 26.5
16 24.1
6.795
7.305
10
17 44.7
161
23
1 28.30
1 28.98
7 16 24.0
16 22.4
6.734
7.176
11
17 40.8
162
23
129X)1
1 29.57
7 16 22.3
16 21.4
6.659
6.991
12
17 36.9
163
23
129.59
130.04
7 16 21.4
16 21.2
6.571
+6.663
18
17 32.9
164
23
130.06
130.38
7 16 21.2
16 21.7
6.459
-5.778
14
17 29.0
165
23
13040
1 30.60
7 16 21.8
16 23.0
6.310
6.763
15
17 25.1
166
23
1 30.61
130.70
7 16 23.1
16 25.0
6.072
7.041
16
17 21.2
167
23
1 30.70
1 30.68
7 16 25.1
16 27.8
+5.568
7.207
17
17 17.2
168
23
1 30.68
1 30.55
7 16 27.9
16 31.3
-5.663
7.326
18
17 13.3
169
23
1 30.54
1 30.30
7 16 31.4
16 35.5
6.111
7.420
19
17 9.4
170
23
130.29
1 29.93
7 16 35.6
16 40.4
6.326
7.497
20
17 5.4
171
23
1 29.91
129.43
7 16 40.6
16 46.1
6.475
7.562
21
17 1.5
172
23
1 29.41
1 28.81
7 16 46.3
16 52.5
6.578
7.619
22
16 57.6
178
23
1 28.78
1 28.07
7 16 52.8
16 59.7
6.664
7.669
23
16 53.6; 174
23
128.04
127.22
7 17 0.0
17 7.6
6.736
7.714
24
16 49.6! 175
23
1 27.18
1 26.25
7 17 7.9
17 16.2
6.797
7.755
25
16 45.7
176
23
126.21
1 25.17
7 17 16.6
17 25.6
6.851
7.792
26
16 41.7
177
23
1 25.13
123.98
7 17 26.0
17 35.6
6.898
7.825
27
16 37.8 178
23
1 23.93
1 22.68
7 17 36.0
17 463
6 960
7.856
28
16 33.8 179
23
I 22.62
1 21.25
7 17 46.8
17 57.8
6.978
7.885
29
16 29.9 180
23
121.19
1 19.70
7 17 58.3
18 10.0
7.013
7.912
30
16 25.9 181
23
1 19.64
1 18.04
7 18 10.5
18 22.9
7.046
7.937
July 1
16 21.9 182
23
1 17.97
1 16.27
- 7 18 23.4
18 36.5
-7.076
-7.961
75
WEPTUNE, 1853.
For WashloftoD Sidareal Noon and Maridiaa TmiMit.
MeMiSotarTinMof
Meridian Tnosit.
SSd«*
real
i)at«.
Loff. of Motion In Lof . of Factor 1
AiSkLOh.
Ai
Ttanait
At Sid Oh.
At
Tiaiuiu
InR.A.
In Dae !ln R.A.
In Dae.
d.
July 2 1
3 1
h. m.
6 18.0
183
h. m. 9.
23 1 16.19
m s
1 14.38
O 1 l»
_ 7 18 37X)
18 5a8
-7.W4
-7.984
6 14.0
184
23 1 14^
1 12.36
7 18 51.3
19 5.7
7.130
9J005
4 1
6 10.0
185
23 1 12.27
1 10.24
7 19 6.3
19 21.2
7.155
8.026
5 ]
6 6.()
186
23 1 10.15
1 8.02
7 19 21.9
19 37.5
7.179
8i)45
6 ]
6 2.1
187
23 1 7.93
1 5.69
7 19 38.2
19 544
7.201
8.062
7 1
15 58.1
188
23 1 5.59
1 3.24
7 19 55.2
20 12.0
7J22
8.078
8 ]
5 54.1
189
23 1 3.14
1 0.69
7 20 12.8
20 30.8
7.242
8X)94
9 ]
5 50.1
190
23 1 0.58
0 58.02
7 20 31.1
20 49.2
7.260
8.110
10
5 46.2
191
23 0 57.91
0 55.25
7 20 50.0
21 8.7
7.278
8.125
U ]
15 42.2
192
23 0 55.14
0 5238
7 21 9.5
2128.9
7.295
8.139
12
15 38.2
193
23 0 52.26
0 4941
7 21 29.7
2149.8
7.310
8.152
13
15 34.2
194
23 0 49.28
0 46.33
7 21 50.6
22 11.3
7.324
8.165
14 ]
15 30.2
195
23 0 46.20
0 43.15
7 22 12.1
22 333
7-338
8.178
15
15 26.2
196
23 0 43.02
0 39.87
7 22 34.2
22 55.9
7iJ52
8.190
16
15 22.2
197
23 0 39.74
0 36^
7 22 56.8
23 19.1
7.365
8.902
17
15 18.3
198
23 0 36.36
0 33.03
7 23 20.0
23 42.9
7.377
8.213
18
15 14.3
199
23 0 32.89
0 29.47
7 23 43.8
24 7.2
7.389
8.224
19
15 10.3
200
23 0 29.32
0 25.81
7 24 8.2
24 32.1
7.401
8J34
20
15 6.3
201
23 0 25.66
0 22.06
7 24 33.1
24 57.5
7412
8.243
21
15 2.3
202
23 0 21.91
0 18.22
7 24 58.5
25 23.5
7423
8.252
22
14 58.3
203
23 0 18.06
0 14.28
7 25 24.5
25 50.0
7433
8.261
23
14 54.3
204
23 0 14.12
0 10.25
7 25 51.1
26 17.0
7443
8.270
24
14 50.-i
205
23 0 10.08
0 6.13
7 26 18.2
26 44.6
7453
8.278
25
14 46.3
206
23 0 5.96
0 1.92
7 26 45.8
27 12.7
7462
8.287
26
14 42.3
207
23 0 1.75
59 57.63
7 27 13.9
27 41.3
7.471
8.295
27
14 38.3
208
22 59 57 46
59 53.26
7 27 42.5
28104
7479
8.302
28
14 34.3
209
22 .'i9 53.08
59 48.81
7 28 11.7
28 40.0
7487
8.309
29
14 30.3
210
22 59 48.62
59 44.27
7 28 41.3
29 10X)
7.495
SM6
30
14 26.;i
211
22 59 44.08
59 39.65
72911.3
29 40.5
7.503
8.323
31
14 22.3
212
22 59 39.46
59 34.95
7 29 41.8
30 11.5
7.510
8.329
Ao,. .
14 18.3
213
22 59 34.76
59 30.18
7 30 12.8
30 42.9
7.517
8.335
14 14.3
214
22 59 29.98
59 25.34
7 30 44.2
31 14.7
7.524
8.341
3
14 lOJJ
215
22 59 25.13
59 20.43
7 31 16.0
31 46.8
7.530
8JJ47
4
14 6.2
216
22 59 20.22
59 15.45
7 31 48.2
.32 194
7.536
8.352
5
14 2.2
217
22 59 15 24
59 10.40
7 32 20.8
32 524
7.542
8.357
6
13 58.2
218
22 59 10.18
59 5.28
7 32 53.8
33 25 8
7.548
8.362
7
13 54.2
219
22 59 5.06
59 0.10
7 33 27.2
33 59.5
7.553
8.367
8
13 50.2
220
22 58 59.88
58 54.86
7 34 1.0 34 33.5
7.558
8.372
9
13 46.2
221
22 58 54.64
58 49 56
7 34 35.0,35 7.8
7.563
8.376
10
13 42.1
222
22 58 49^
58 44.20
7 35 9.3 35 42.5
7.568
8380
11
13 38.1
223
22 58 43.97
58 38.78
7 35 44.0 36 17.6
7.573
8384
12
13 34.1
224
22 58 38.55
58 33.30
7 36 19.1 36 53.0
7.577
8388
«
.1
13
13 30.1
225
22 58 33.07
58 27.78
7 36 54.5
37 28.6
7.581
8392
.'
14
13 26.1
226
22 58 27.54
58 22.21
7 37 30.1
38 4.5
7.586
8395
15
13 22.0
227
22 58 21.97
58 16.59
7 38 6.0
38 40.7
7.590
8398
16
13 18.0
228
22 58 16.35
58 10.92
738 422
39 17.1
7.594
8.401
17
13 U.O
229
22 58 10.68
58 5.21
7 39 18.7 39 53.8
7.598
8.404
i_
18
13 10.0
230
22 58 4.96
57 59.45
7 39 55.4 40 30.6
7.601
8.406
19
3 5.9
231
22 57 59.20
57 53.66
7 40 32.2 41 7.6
7.604
8409
1
20
13 1.9
232
22 57 53.41
57 47.83
7 41 9 2 4144.8
7.607
8.411
1
21
2 57.9
233
22 57 47.58
57 41.97
7 41 46.4 [42 22 JJ
7.610
8413
1
22 ]
12 53.8
234
22 57 41.71
57 36.07
7 42 23.8 42 59.8
7.612
8415
23
2 49.8
235
22 57 35.81
57 30.14
7 43 1.4 43 37.4
7.614
8416
24 )
12 45.8
236
22 57 29.88
57 24.18
7 43 39.0,44 15.2
7.616
8418
jl
25 1
2 41.7
237
22 57 23.92
57 18.19
7 44 16.8 44 53.1
7.618
8419
'i
26 ]
12 87.7
238
22 57 17 93
57 1218
7 44 54.7 45 31.2
7.620
8421
:
27
12 33.7
239
22 57 11.91
57 6.14
7 45 32 8 46 9.3
7.621
8.422
28
2 29.6
240
22 57 5.87
57 om
7 4611.0 4647.5
7.623
8423
29
12 25.61241
22 56 59.82
56 54m
7 46 49.2! 47 25.7
7.624
8424
30
2 21.6 242
22 56 53.75
56 47.93
7 47 27.4 1 48 4.1
7.625
8.424
1 «>
2 17.5
243
22 56 47.66
56 41.83
- 7 48 5.7
48 42.4
-7.6M^
-84»5
-IJ
76
NEPTUNE, 1853.
FV>r Washinftoa SldefMl Nooa and M«rkHaa Tnnaii.
BiBHiSoItr'nmeaf
Meridiaa Transit.
Side-
real
Dau.
Apparaai DacUoalioa.
Log.ofMotioaia
a^derealMinuU.
Loc.ofFlKtor
ftr Second OUPai
AtSkLOh.
At
Transit.
At ad. Ob.
At
Transit.
laB-A.
In Dee.
IaR.A.
IoDk.
d.
h. m.
- h. m. •.
m. a.
O 1 u
1
Sept. 1
12 13.5
244
22 56 41.56
56 35.72
-7 48 44.1
49 20.8
-7.627
*8425
2
12 9.5
245
22 56 35.45
56 29.60
7 49 22.5
49 59.2
7.628
8426
3
12 5.4
246
22 56 29.33
56 23.48
7 50 0.9
50 37.6
7.62A
8426
4
12 1.4
247
22 56 23.21
56 17.36
7 50 39.3
51 15.9
7.630
8426
5
1157.4
248
22 56 17i)9
56 11.24
7 51 17.6
5154.2
7.630
8425
6
1153.3
249
22 56 10.97
56 5.12
7 51 55.9
52324
7.630
a425
7
1149.3
250
22 55 64.84
55 58.98
7 52 34.1
53 10.6
7.630
8424
8
1145.3
251
22 55 59.71
55 52.84
7 53 12.3
53 48.8
7.629
8.424
9
1141.2
262
22 55 52.57
55 46.72
7 53 50.5
54 26.9
7.628
a423
10
1137.2
253
22 55 4645
55 40.62
7 54 28.6
55 4.9
7.627
8422
U
1133.2
254
22 55 40.36
55 34.54
7 55 6.6
55 42.7
7.626
8421
12
1129.2
255
22 55 34.27
55 2847
7 55 444
56 204
7.625
&420
18
1125.1
256
22 55 28.21
55 2243
7 56 22.1
56 57.9
7.624
8418
14
11 21.1
257
22 55 22.16
55 1640
7 56 59.6
57 35.3
7.622
8416
15
11 17.1
258
22 55 16.13
55 1040
7 57 37.0
5812.5
7.621
8414
16
U ISJO
259
22 55 10.13
55 442
7 58 14.1
56 494
7.619
8412
17
\\ 9J0
260
22 54 64.15
54 5846
7 58 51.0
50 26.1
7.617
8409
18
11 5.0
261
22 54 58.19
54 52.54
7 59 27.7
0 62.6
7.615
8407
19
11 0.9
262
22 54 52.27
54 46.65
8 0 4.2
0 38.8
7.613
8406
20
10 56.9
263
22 54 46.38
54 40.79
8 0 404
1 14.8
7.611
8402
21
10 52.9
264
22 54 40.53
54 34.97
8 1 16.4
150.5
7.608
8399
22
10 48«
265
22 54 34.71
54 29.18
8 152.1
2 26j0
7.605
8.395
23
10 44.8
266
22 54 28.92
54 2343
8 2 27.5
3 1.1
7.602
8^1
24
10 40.8
267
22 54 23.17
54 17.73
8 3 2.7
3 36.0
7.599
8.387
25
10 36.7
268
22 54 1747
54 1^X)8
8 8 37.6
410.5
74^96
8.383
26
10 32.7
2601
22 5411.82
54 647
8 4 12.0
4 44.7
7.592
8.378
27
10 28.7
270
22 54 6.22
54 0.92
8 4 46.2
518.5
7.588
8.374
28
10 24.7
271
22 53 60.67
53 5542
8 5 20X)
5 5^0
7.584
8.369
29
10 20.6
272
22 53 5.5.17
53 49.97
8 5 53.6
6 25.1
7.580
8.364
30
10 16.6
278
22 53 49.72
53 44.57
8 6 26.6
6 57.8
7.576
8.359
Oct 1
10 12.6
274
22 53 44.33
53 39.23
8 6 59.3
7 30.2
7.571
8.354
2
10 8.6
^5
22 53 38.99
53 33.96
8 7 31.7
8 2.2
7.566
8.349
8
10 4.6
276
22 53 33.72
53 28.75
8 8 3.7
8 33.7
7.561
8.343
4
10 0.6
277
22 53 28.51
53 23.60
8 8 35.2
9 4.7
7.556
8.337
5
9 56.6
278
22 53 23.36
5318.52
8 9 6.2
9 35.3
7.550
8.331
6
9 52.5
278
22 53 18.28
5313.50
8 9 36.7
10 54
7JS44
8.324
7
9 48.5
280
22 53 13.27
53 8^6
810 6.8
10 35U>
7.538
8.317
8
9 44.5
281
2^53 8.38
53 3.70
810 364
11 4.2
7.532
8.310
9
9 40.5
M2
2S^ 52 63.47
52 58.91
811 5.5
1132.9
7.525
8.302
10
9 36.5
283
22.52 58.69
52 54.20
8 11 34.1
12 IX)
7.518
8.294
11
9 324
2M
21152 53.98
52 49.57
812 2.2
12 28w6
7.511
8.286
12
9284
286
2252 49.35
52 45.02
8 12 29.9
12 55.7
7.504
8.278
18
9 244
286
2252 44.81
52 4a56
8 12 57.0
13 22.2
7496
8.270
14
9 204
287
22.52 40.36
52S6J9
813 23.5
13 48.2
7487
8.261
15
9 164
288
22.52 35.99
52 31.90
8 13 494
14.13.6
7478
8.252
16
9 124
989
22 52 31.70
52 27.69
8 14 14.8
14>38.4
7470
8.242
17
9 84
290
22 52 27.50
52 23.57
8 14 39.6
16 2^
7461
8.232
18
9 44
291
22 52 23.28
52 19.55
815 3.8
16 26.3
7452
8.221
19
9 04
292
22 52 19.36
52 15.62
8 15 274
15 49.3
7442
a2io
20
8 564
293
22 52 15.44
52 11.79
8 15 504
1611.7
7.432
8.198
21
8 52.5
294
22 52 11.61
52 8.05
8 16 12.8
16 33.6
7421
8.186
22
8 48.5
295
22 52 7.88
52 441
816 34.6
16 54»8
7409
8.174
23
8 44.5
296
22 52 4.24
52 0.87
8 16 55.8
17 15.3
7.397
ai6i
24
8 40.5
297
22 51 60.70
51 57.43
8 17 16.3
17 35.3
, 7.384
8.147
25
8 36.5
298
22 51 57.27
5154.08
8 17 36.2
1154.6
7.371
8.133
26
8 32.6
299
22 51 53.92
5150.83
817 55.5
181^3
7.357
8wll8
27
8 28.6
300
22 51 50.68
51 47.70
a 18 14.1
1831^
7.343
8.103
28
8 24.6
301
22 51 47.55
51 44.68
8^18 32.0
184&5
, 7.328
8.087
29
8 20.6
302
22 51 44.54
51 4L77
a 18 48^
19 5.0
7.312
8.070
80
8 16.7
303
22 51 41.63
5138.96
a 19 5.8
19 20.9
7.296
8.052
31
8 12.7
304
22 5138.88
5136w27
^S19^.7
19 36i2
-7.279
-8.083
1
70
77
NEPTUNE, 1853.
For WMhioftoD Skbratl Noon and M«ridtea Tnn^u
MMnSoltfTliMor
Mjrtilimn, fw»»>^»
8i(fe-
IMl
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